1 Overview of Plant Simulation - 16 8 Topics

1. What is simulated in Plant Simulation
2. How to use Plant Simulation effectively
3. Defining the problem and analyzing the system
4. Acquiring data and creating a model
5. Validating the model
6. Experimenting and analyze the model
7. Evaluating the results and giving recommendations
8. Overview of Plant Simulation Knowledge Check

2 Get started with Plant Simulation - 16 6 Topics

1. Select the model file visualization and language
2. Start Plant Simulation and view examples
3. Begin using Plant Simulation
4. Begin using Plant Simulation
5. Explore several ways to access the help
6. Get started with Plant Simulation Knowledge Check

3 Explore the Plant Simulation graphical user interface - 16 6 Topics

1. Identify areas of the Plant Simulation window
2. Manipulate docked and floating windows
3. Manage 3D windows and the Class Library
4. Identify windows and objects in Plant Simulation Lab
5. Identify windows and objects in Plant Simulation Lab
6. Explore the Plant Simulation graphical user interface Knowledge Check

1 Define a target, analyze a simple system, and acquire data - 16 8 Topics

1. Describe system analysis techniques used in Plant Simulation
2. Analyze the system
3. Analyze the system
4. Identify and create class library folders
5. Adding folders to the Class Library
6. Adding folders to the Class Library
7. Explore basic techniques to navigate the scene
8. Define a target, analyze a simple system, and acquire data Knowledge Check

2 Create a simple model - 16 18 Topics

1. Create a simple model
2. Model a production facility
3. Model a production facility
4. Apply basic simulation techniques to a model
5. Apply basic simulation techniques to a model
6. Insert, rename, and delete 3D objects in a frame
7. Change the contents of a model frame
8. Change the contents of a model frame
9. Rotate and move 3D objects
10. Precisely rotate and move objects in 3D
11. Precisely rotate and move objects in 3D
12. Examine techniques to show States in the 3D Window
13. View object state as colors or LEDs
14. View object state as colors or LEDs
15. Run a 3D Simulation
16. Visualize simulations as event-based or time-based
17. Visualize simulations as event-based or time-based
18. Create a simple model Knowledge Check

3 Validate the throughput of a simple model - 16 9 Topics

1. Block and starve serial manufacturing lines
2. Forcing block and starve conditions in a manufacturing line
3. Forcing block and starve conditions in a manufacturing line
4. Change the processing time of the milling object
5. Change the processing time of the milling object Lab
6. View, manage, and search multiple object attributes
7. Use the AttributeExplorer
8. Use the AttributeExplorer
9. Validate the throughput of a simple model Knowledge Check

4 Prepare to create a new model from the previous model - 16 8 Topics

1. Identify the basic groups of objects
2. Insert, process, and remove parts in a simulation
3. Improve the visualization of the simulation
4. Change station 3D representation
5. Change station 3D representation
6. View common material flow object attributes
7. Setup basic options
8. Prepare to create a new model from the previous model Knowledge Check

5 Create a more detailed model to produce a better result - 16 16 Topics

1. Revise the model while maintaining alternative models
2. Create a new model frame from an existing frame
3. Create a new model frame from an existing frame
4. Apply the default branching behavior
5. Converge and diverge your process flow
6. Converge and diverge your process flow
7. Setup a display object for an object
8. Setup a display object for an object
9. Discriminate between different strategies to move MUs from station to station
10. Compare the effects of exit strategies and blocking
11. Compare the effects of exit strategies and blocking
12. Test three exit strategies for CutToSize
13. Test three exit strategies for CutToSize
14. Apply the best exit strategy for CutToSize
15. Apply the best exit strategy for CutToSize
16. Create a more detailed model to produce a better result Knowledge Check

6 Implement basic objects to analyze results - 16 11 Topics

1. Analyze simulation bottlenecks and part flow
2. Use a Sankey diagram to analyze the system
3. Use a Sankey diagram to analyze the system
4. Using a bottleneck analyzer to analyze the system
5. Using a bottleneck analyzer to analyze the system
6. Locate basic simulation statistics and create charts
7. View resource and production statistics
8. View resource and production statistics
9. Create a simple model to manufacture markers
10. Create a simple model to manufacture markers
11. Implement basic objects to analyze results Knowledge Check

1 Create a hierarchical model - 16 13 Topics

1. Add hierarchy and interfaces to the simulation
2. Use connectors without interface objects
3. Use connectors without interface objects
4. Model hierarchy and using interfaces
5. Model hierarchy and using interfaces
6. Test components
7. Model hierarchy test environment
8. Model hierarchy test environment
9. Adding components to models
10. Adding components to models
11. Reusing a custom object within a model file
12. Reusing a custom object within a model file
13. Knowledge Check

2 Identify inherited objects and attributes - 16 9 Topics

1. Identify classes, instances, and inheritance
2. Distinguish class and subclass objects
3. Distinguish class and subclass objects
4. Create and identify a custom Station and Buffer
5. Create and identify a custom Station and Buffer
6. Viewing object parameters
7. Viewing object parameters
8. Locate objects by relative and absolute path
9. Knowledge Check

3 Navigate and change 3D viewer visualization - 16 8 Topics

1. Select objects and navigate the hierarchy of the 3D Window
2. Navigate a hierarchical model in 3D
3. Navigate a hierarchical model in 3D
4. View the structure of graphic objects
5. Change the object and scene visualization
6. Visualize Class Library objects in 3D
7. Visualize Class Library objects in 3D
8. Knowledge Check

4 Simulate machine processing time and failures with distributions - 16 12 Topics

1. Use random numbers in simulation
2. Investigate distributions to model machine failures
3. Force failures in packing
4. Force failures in packing
5. Define failures in the packing area of the plant model
6. Define failures in the packing area of the plant model
7. Simulate class object (wide spread) failures
8. Simulate class object (wide spread) failures
9. Fit production data to distributions
10. Use sample data to configure a stochastic processing time
11. Use sample data to configure a stochastic processing time
12. Knowledge Check

5 Material flow objects with a capacity greater than one - 16 6 Topics

1. Buffers and other material flow objects
2. Add buffers and robots to the milling component
3. Add buffers and robots to the milling component
4. Add more buffers
5. Add more buffers
6. Knowledge Check

1 Model length-oriented objects 18 Topics

1. Create length-oriented (extrusion) objects
2. Create a single-level conveyor
3. Create a single-level conveyor
4. Modify length-oriented (extrusion) objects in 3D
5. Edit a multi-level conveyor
6. Edit a multi-level conveyor
7. Model a paint shop with a conveyor
8. Model a paint shop with a conveyor
9. Test the paint shop component
10. Test the paint shop component
11. Add the paint shop component to the plant model
12. Add the paint shop component to the plant model
13. Load and unload transporters
14. Automatically configure robots to load and unload tracks
15. Automatically configure robots to load and unload tracks
16. Estimate the optimal number of transporters on a track
17. Estimate the optimal number of transporters on a track
18. Knowledge Check

2 Setup time, assembly, and dismantle objects 8 Topics

1. Implement machine setup time, assembly, and dismantle objects
2. Use the AssemblyStation to assemble parts
3. Use the AssemblyStation to assemble parts
4. Test the assembly component
5. Test the assembly component
6. Use the assembly component in the plant
7. Use the assembly component in the plant
8. Knowledge Check

3 Create user-defined attributes and data tables 18 Topics

1. Identify object attributes and create user-defined attributes
2. View all object attributes
3. View all object attributes
4. Create custom attributes
5. Create custom attributes
6. Define data in tables
7. Enhance the assembly component to use a product schedule
8. Enhance the assembly component to use a product schedule
9. Add the ProductSchedule to the Class Library
10. Add the ProductSchedule to the Class Library
11. Enhance the milling component to use a product schedule
12. Enhance the milling component to use a product schedule
13. Debug a simulation
14. Use the event debugger
15. Use the event debugger
16. Assembly Putting it all together
17. Assembly Putting it all together
18. Knowledge Check

4 Use basic workers and work shifts 15 Topics

1. Define work shifts
2. Control pauses using a shift calendarLab
3. Control pauses using a shift calendarLab
4. Test the packing area shift calendar
5. Test the packing area shift calendar
6. Worker basics
7. Assign workers to stations and to walk along footpaths
8. Assign workers to stations and to walk along footpaths
9. Avoid obstacles with freely walking workers
10. Simulate freely walking workers and basic obstacles
11. Simulate freely walking workers and basic obstacles
12. Implement worker charts, Sankeys, and repair Failures
13. Use worker charts and sankey
14. Use worker charts and sankey
15. Knowledge Check

1 Create experiments and custom reports - 16 13 Topics

1. Create a CompShip element
2. Create a CompShip element
3. Preview the experiment manager object
4. Add a buffer utilization chart
5. Add a buffer utilization chart
6. Use an ExperimentManager to optimize the size of a buffer
7. Use an ExperimentManager to optimize the size of a buffer
8. Presentation of results in custom reports
9. Report generation
10. Report generation
11. Create dimensions in the 3D window
12. Create dimensions in the 3D window
13. Knowledge Check

2 Gather time, cost, and power consumption statistics - 16 18 Topics

1. Record the time parts enter a station
2. Collect time stats
3. Collect time stats
4. Extend HTML content
5. Extend HTML content
6. Perform a power consumption analysis
7. Configure and view power consumption statistics
8. Configure and view power consumption statistics
9. Configure and view power consumption analysis
10. Configure and view power consumption analysis
11. Perform a cost analysis
12. Configure cost statistics
13. Configure cost statistics
14. Perform a cost analysis
15. Perform a cost analysis
16. Analyze gathered statistics and compare simulation results
17. Analyze gathered statistics and compare simulation results
18. Knowledge Check

3 Add textured plates, point clouds, and backgrounds - 16 14 Topics

1. Load a CAD model as a background
2. Using a CAD file
3. Using a CAD file
4. Hide objects and graphic backgrounds
5. Show or hide objects
6. Show or hide objects
7. Adding background (internal) graphics to a frame
8. Adding background (internal) graphics to a frame
9. Techniques for creating frame backgrounds in 3D
10. Creating walls and floors
11. Creating walls and floors
12. Import JT background files and point clouds
13. Import JT background files and point clouds
14. Knowledge Check

1 Insert custom logic 13 Topics

1. Insert custom logic
2. Identify method-related preferences
3. Identify method-related preferences
4. Define a simple method
5. Define a simple method
6. Identify the syntax for writing a method
7. Use a control structure and other short-cuts to write methods
8. Use a control structure and other short-cuts to write methods
9. Use a template and other short-cuts to write methods
10. Use a template and other short-cuts to write methods
11. Call a method from another method
12. Call a method from another method
13. Knowledge Check

2 Use the Method Debugger and anonymous identifiers 8 Topics

1. Trace method logic using the method debugger
2. Observe how values change using the debugger
3. Observe how values change using the debugger
4. Declaring local variables and passing parameters to methods
5. Indicate object names, identifiers, paths, and anonymous identifiers
6. Observe the values of anonymous identifiers
7. Observe the values of anonymous identifiers
8. Knowledge Check

3 Run a method during a simulation 13 Topics

1. Scheduling method calls
2. Create init and reset simulation methods
3. Create init and reset simulation methods
4. Identify point-oriented object controls
5. Identify length-oriented object controls
6. Move MUs between objects with exit controls
7. Set up the basic data for testing entrance and exit controls
8. Set up the basic data for testing entrance and exit controls
9. Examine entrance and exit controls of the station
10. Examine entrance and exit controls of the station
11. Examine entrance and exit controls of the line object
12. Examine entrance and exit controls of the line object
13. Knowledge Check

4 Set attribute values with methods 13 Topics

1. Write statements to assign values
2. Change the attributes of an object manually
3. Change the attributes of an object manually
4. Change the attributes of an object with a method
5. Lab: Change the attributes of an object with a method
6. Write conditional statements
7. Attributes of 3D Objects
8. View lists of 3D attributes
9. View lists of 3D attributes
10. Set 3D properties of a frame with a method
11. Create a basic method for 3D
12. Create a basic method for 3D
13. Knowledge Check

5 Access data in tables, lists, and global variables 10 Topics

1. Access lists, tables and global variables with methods
2. Set up a method to paint the parts different colors
3. Set up a method to paint the parts different colors
4. Paint the TableTop objects with a method
5. Paint the TableTop objects with a method
6. Test the paint shop object
7. Test the paint shop object
8. Putting it all together with methods
9. Putting it all together with methods
10. Knowledge Check

6 Use distribution functions, use operators, and convert data 8 Topics

1. Use distribution functions in methods
2. Randomly choose a color for the TableTop
3. Randomly choose a color for the TableTop
4. Define the paint quality cycle with a normal distribution
5. Define the paint quality cycle with a normal distribution
6. Use logical, arithmetic, relational operators in methods
7. Convert data types in a method
8. Knowledge Check

7 Create conditional methods and access the contents of an object 11 Topics

1. Create loops and conditional suspensions in methods
2. Use a for loop in a simple method
3. Use a for loop in a simple method
4. Use attributes of assembly objects and access the contents of an object
5. Replace the AssemblyStation object with a method
6. Replace the AssemblyStation object with a method
7. Fix the Assembly method starve and block conditions
8. Fix the Assembly method starve and block conditions
9. Fix an Assembly method block condition and more
10. Fix an Assembly method block condition and more
11. Knowledge Check

8 Model transport systems and setup time 21 Topics

1. Create an assembly cycle
2. Create a custom container
3. Create a custom container
4. Create an assembly cycle with pallets
5. Create an assembly cycle with pallets
6. Configure the assembly cycle logic
7. Configure the assembly cycle logic
8. Model a basic transport system
9. Control transporters in transport systems
10. Setup a basic track routing system
11. Setup a basic track routing system
12. Create a simple model to load and unload transporters
13. Create a simple model to load and unload transporters
14. Improve the logic of a model to load and unload transporters
15. Improve the logic of a model to load and unload transporters
16. Examine an order management system
17. Examine an order management system
18. Model preparations and maintenance time
19. Perform a setup at a part switch over
20. Perform a setup at a part switch over
21. Knowledge Check

9 Collect statistics with methods 15 Topics

1. Create methods for collecting statistical values
2. Access MU statistics with a method
3. Access MU statistics with a method
4. Test MU statistics created with a method
5. Test MU statistics created with a method
6. Create a custom part statistics table
7. Create a custom part statistics table
8. Improve the custom part statistics method
9. Improve the custom part statistics method
10. Access the event controller with a method
11. Collect event controller values into a DataTable
12. Collect event controller values into a DataTable
13. Run the event controller value collection method
14. Run the event controller value collection method
15. Knowledge Check

10 Save and load data into a Plant Simulation table 13 Topics

1. Save a Plant Simulation table as a file
2. Create a method to write to an Excel file
3. Create a method to write to an Excel file
4. Manually saving a DataTable to a text file
5. Manually saving a DataTable to a text file
6. Automate saving a DataTable into a text file
7. Automate saving a DataTable into a text file
8. Load a file into a Plant Simulation table
9. Manually reading values from a text file
10. Manually reading values from a text file
11. Automate reading a text file into a DataTable
12. Automate reading a text file into a DataTable
13. Knowledge Check

1 Transition from v15.1 to v16 25 Topics

1. Demo: Examine basic changes to Process Simulate for version 16 (part 1)
2. Lab: Examine basic changes to Process Simulate for version 16 (part 1)
3. Demo: Examine basic changes to Process Simulate for version 16 (part 2)
4. Lab: Examine basic changes to Process Simulate for version 16 (part 2)
5. Demo: Spot — Use Automatic Approach Angle for robot paths
6. Lab: Spot — Use Automatic Approach Angle for robot paths
7. Demo: Use Automatic Path Planner with robot paths
8. Lab: Use Automatic Path Planner with robot paths
9. Demo: Use Smart Tool Positioning
10. Lab: Use Smart Tool Positioning
11. Demo: Examine the new human figures
12. Lab: Examine the new human figures
13. Demo: Use a social distancing envelope
14. Lab: Use a social distancing envelope
15. Demo: Use Smart Tool Position with a human figure
16. Lab: Use Smart Tool Position with a human figure
17. Demo: Metabolic Energy Expenditure Analysis
18. Lab: Metabolic Energy Expenditure Analysis
19. Demo: Create an RGB-Depth camera
20. Lab: Create an RGB-Depth camera
21. Demo: Use advanced cables techniques
22. Lab: Use advanced cables techniques
23. Demo: Define a Safety Mat
24. Demo: Create a Simple Counter
25. Demo: Use Falling Edge in a Logic Block

1 Identify Easy Plan for shipbuilding (NGP) 3 Topics

1. Identify Easy Plan for Shipbuilding (NGP)
2. Identify object types for Shipbuilding Manufacturing Planning
3. KC: Identify Easy Plan for shipbuilding (NGP)

2 Perform initial planning for ship building 13 Topics

1. Create an activity
2. Demo: Create an Activity
3. Lab: Create an activity
4. Create a process element
5. Demo: Create a process element
6. Lab: Create a process element
7. Create an attribute group
8. Demo: Create an attribute group
9. Lab: Create an attribute group
10. Create an Operation
11. Demo: Create an Operation
12. Lab: Create an Operation
13. KC: Perform initial planning for ship building

3 Use manufacturing planning disclosures for ship building 7 Topics

1. Create manufacturing views
2. Demo: Create manufacturing views
3. Lab: Create manufacturing views
4. Reuse design views
5. Demo: Reuse design views
6. Lab: Reuse design views
7. KC: Use manufacturing planning disclosures for ship building

4 Perform change management for ship building 6 Topics

1. Analyze manufacturing impact and apply changes
2. Demo: Analyze the manufacturing impact of an engineering change notice (ECN)
3. Lab: Analyze the manufacturing impact of an engineering change notice (ECN)
4. Demo: Create a manufacturing change notice (MCN) which is not related to an ECN
5. Lab: Create a manufacturing change notice (MCN) which is not related to an ECN
6. KC: Perform change management for ship building

5 Reuse a manufacturing elements for ship building 16 Topics

1. Clone a process element
2. Demo: Clone a process element
3. Lab: Clone a process element
4. Clone an activity
5. Lab: Clone an activity
6. Update a clone because of changes in the master
7. Demo: Update a cloned process due to changes in the master
8. Demo: Clone and update an activity due to changes in the master
9. Lab: Clone and update an activity due to changes in the master
10. Create a class plan
11. Demo: Create a class plan
12. Lab: Create a class plan
13. Reuse activities and processes from a class plan
14. Demo: Reuse activities and processes from a class plan
15. Lab: Reuse activities and processes from a class plan
16. KC: Reuse a manufacturing elements for ship building

6 Assessment: Use Easy Plan for shipbuilding (NGP) 1 Topic

1. Assessment: Use Easy Plan for shipbuilding (NGP)

1 Identify basic concepts for PS on eMS Standalone - 16.1 9 Topics

1. Identify the Process Simulate basic methodology and purpose
2. Start Process Simulate Standalone
3. Identify the data structure and basic object types
4. Demo: Set and view basic options
5. Lab: Set and view basic options
6. Create and open a study
7. Demo: Examine object types in an existing study and create a new study
8. Lab: Examine object types in an existing study and create a new study
9. Knowledge Check: Identify basic concepts for Process Simulate Standalone (eMS Compatible)

2 Identify Process Simulate basics - 16.1 13 Topics

1. Identify the basic Process Simulate window
2. Identify Process Simulate viewers
3. Demo: Browsing the Process Simulate study
4. Lab: Browsing the Process Simulate study
5. Customize the user configuration
6. Manage the window layout
7. Demo: Dock and float viewers
8. Lab: Dock and float viewers
9. Demo: Save a window layout
10. Lab: Save a window layout
11. Demo: Use a window layout
12. Lab: Use a window layout
13. Knowledge Check: Identify Process Simulate basics

3 Identify basic tools in Process Simulate environment (part 1) - 16.1 29 Topics

1. Identify study data
2. Work with viewers
3. Demo: Automotive — Get an overview of the objects in the Object Tree
4. Lab: Automotive — Get an overview of the objects in the Object Tree
5. Demo: Airplane — Get an overview of the objects in the Object Tree
6. Lab: Airplane — Get an overview of the objects in the Object Tree
7. Demo: Structure — Get an overview of the objects in the Object Tree
8. Lab: Structure — Get an overview of the objects in the Object Tree
9. Demo: Identify object Tree basics and create groups
10. Lab: Identify object Tree basics and create groups
11. Demo: Use the right-click popup menu
12. Lab: Use the right-click popup menu
13. Setup and control the Graphic Viewer
14. Control the Graphic Viewer with the mouse
15. Demo: Graphic Viewer controls
16. Lab: Graphic Viewer controls
17. Demo: Use Cameras
18. Lab: Use Cameras
19. Identify entity selection techniques
20. Demo: Select objects in the Graphic Viewer
21. Lab: Select objects in the Graphic Viewer
22. Demo: Identify additional methods of multiple entity selection
23. Lab: Identify additional methods to select multiple entities
24. Demo: Use the Toggle Display command
25. Lab: Use the Toggle Display command
26. Identify selection filters (optional)
27. Demo: Blank all the frames using selection filters
28. Lab: Blank all the frames using selection filters
29. Knowledge Check: Identify basic tools in Process Simulate environment (part 1)

4 Identify basic tools in Process Simulate environment (part 2) - 16.1 15 Topics

1. Display objects by type
2. Demo: Blank objects using the Display By Type command
3. Lab: Blank objects using the Display By Type command
4. Visualize graphics and adjust graphics performance
5. Demo: Change graphical visualization
6. Lab: Change graphical visualization
7. Demo: Use texture maps
8. Lab: Use texture maps
9. Demo: Use point clouds
10. Lab: Use point clouds
11. Identify additional graphics commands
12. Demo: Identify additional Process Simulate commands
13. Lab: Identify additional Process Simulate commands
14. Access online help and release notes
15. Knowledge Check: Identify basic tools in Process Simulate environment (part 2)

5 Identify the placement commands - 16.1 18 Topics

1. Identify Process Simulate placement commands
2. Demo: Use the Fast Placement command
3. Lab: Use the Fast Placement command
4. Change selection behavior and create frames
5. Demo: Create a frame
6. Lab: Create a frame
7. Use the Placement Manipulator command
8. Demo: Shift and rotate instances on-screen
9. Lab: Shift and rotate instances on-screen
10. Demo: Examine the relationship between Placement Manipulator measuring and units
11. Lab: Examine the relationship between Placement Manipulator measuring and units
12. Demo: Incremental shifting of objects from a reference frame
13. Lab: Incremental shifting of objects from a reference frame
14. Use the Relocate command
15. Lab: Relocate an object relative to two new frames
16. Demo: Relocate an object relative to two existing frames
17. Lab: Relocate an object relative to two existing frames
18. Knowledge Check: Identify the placement commands

6 Use kinematics to create operations - 16.1 12 Topics

1. Identify the fundamentals of kinematics
2. Demo: Jog the joints of a simple object
3. Lab: Jog the joints of a simple object
4. Demo: Creating a simulative operation from poses
5. Lab: Creating a simulative operation from poses
6. Examine inverse kinematics concepts
7. Use inverse kinematics
8. Demo: Examine the kinematic tree of a robot
9. Lab: Examine the kinematic tree of a robot
10. Demo: Make the robot move
11. Lab: Make the robot move
12. Knowledge Check: Use kinematics to create operations

7 Detect collisions - 16.1 16 Topics

1. Identify collision detection concepts
2. Identify the Collision Viewer
3. Demo: Identify the Collision Viewer and define fast collision sets
4. Lab: Identify the Collision Viewer and define fast collision sets
5. Demo: Define collision sets using list pairs
6. Lab: Define collision sets using list pairs
7. Distinguish the levels of detection granularity
8. Examine additional aspects of collision detection
9. Demo: Examine collision setup and the Collision Viewer
10. Lab: Examine collision setup and the Collision Viewer
11. Demo: Filter collision results
12. Lab: Filter collision results
13. Identify factors that affect collision detection
14. Demo: Identify factors that affect collision detection
15. Lab: Identify factors that affect collision detection
16. Knowledge Check: Detect collisions

1 Define part-in-tool robot spot welding paths - 16 13 Topics

1. Identify basic robotics concepts
2. Create a study (again)
3. Demo: Create a new study (again)
4. Lab: Create a new study (again)
5. Identify the Manufacturing feature representation
6. Examine basic spot welding concepts
7. Identify the basic spot weld process methodology
8. Project spot manufacturing features
9. Demo: View spot manufacturing features in Process Simulate
10. Lab: View spot manufacturing features in Process Simulate
11. Demo: Project spot manufacturing features
12. Lab: Project spot manufacturing features
13. Knowledge Check: Define part-in-tool robot spot welding paths

2 Adjust welds in spot welding paths - 16 13 Topics

1. Edit a weld path
2. Demo: Adjust a weld path (part 1)
3. Lab: Adjust a weld path (part 1)
4. Demo: Adjust a weld path (part 2)
5. Lab: Adjust a weld path (part 2)
6. Create multi-sections and a gun cloud
7. Demo: Perform gun shank validation
8. Lab: Perform gun shank validation
9. Use the weld distribution center (WDC)
10. Demo: Use Weld Distribution Center with Automatic Approach Angle
11. Lab: Use Weld Distribution Center with Automatic Approach Angle
12. Revisit the spot welding process methodology
13. Knowledge Check: Adjust welds in spot welding paths

3 Define part-on-robot spot welding paths - 16 14 Topics

1. Examine the gripper creation process
2. Setup a basic part-on-robot spot weld study
3. Demo: Put the gripper on the robot for pedestal welding
4. Lab: Put the gripper on the robot for pedestal welding
5. Create material handling (pick and place) operations for part-on-robot spot welding
6. Demo: Get and put the part in the fixture
7. Lab: Get and put the part in the fixture
8. Create a rough mounted workpiece (pedestal welding) path
9. Demo: Create a mounted workpiece path
10. Lab: Create a mounted workpiece path
11. Orient workpiece locations
12. Demo: Orient the locations in a pedestal welding path
13. Lab: Orient the locations in a pedestal welding path
14. Knowledge Check: Define part-on-robot spot welding paths

4 Search for spot weld guns and use servo guns - 16 11 Topics

1. Perform a weld gun search
2. Demo: Perform gun search
3. Lab: Perform gun search
4. Use servo guns to perform spot welding
5. Demo: Simulate robots with servo guns
6. Lab: Simulate robots with servo guns
7. Demo: Perform welding with servo guns (part 1)
8. Lab: Perform welding with servo guns (part 1)
9. Demo: Perform welding with servo guns (part 2)
10. Lab: Perform welding with servo guns (part 2)
11. Knowledge Check: Search for spot weld guns and use servo guns

5 Define robotic drilling and riveting paths - 16 13 Topics

1. Identify the drilling and riveting process
2. Demo: Create drill and rivet manufacturing features
3. Lab: Create drill and rivet manufacturing features
4. Create drilling and riveting operations
5. Demo: Create riveting operations
6. Lab: Create riveting operations
7. Create waypoints and use the Waypoint Viewer
8. Demo: Create waypoints and use the Waypoint Viewer
9. Lab: Create waypoints and use the Waypoint Viewer
10. Perform drill and rivet gun search
11. Demo: Perform drill and rivet gun search
12. Lab: Perform drill and rivet gun search
13. Knowledge Check: Define robotic drilling and riveting paths

6 Define robotic material handling paths - 16 12 Topics

1. Examine the gripper creation process
2. Setup a simple material handling study
3. Demo: Examine a material handling example
4. Lab: Examine a material handling example
5. Demo: Setup a pick and place (material handling) study
6. Lab: Setup a pick and place (material handling) study
7. Create material handling (pick and place) operations
8. Demo: Create the basic (PNP) process
9. Lab: Create the basic (PNP) process
10. Demo: Stack boxes using a robot
11. Lab: Stack boxes using a robot
12. Knowledge Check: Define robotic material handling paths

7 Define robotic arc welding continuous feature paths - 16 18 Topics

1. Examine the arc weld robotic process
2. Create arc weld continuous manufacturing features and operations
3. Demo: Use continuous feature operations
4. Lab: Use continuous feature operations
5. Create paths from continuous manufacturing features
6. Demo: Create an arc-weld path from a manufacturing feature
7. Lab: Create an arc-weld path from a manufacturing feature
8. Use a seventh axis and more (external axis)
9. Demo: Examine a 7th axis example
10. Lab: Examine a 7th axis example
11. Demo: Set robotic 7th axis values
12. Lab: Set robotic 7th axis values
13. Create and edit more arc weld paths
14. Demo: Create arc manufacturing features and locations
15. Lab: Create arc manufacturing features and locations
16. Demo: Modify arc weld operations and seams
17. Lab: Modify arc weld operations and seams
18. Knowledge Check: Define robotic arc welding continuous feature paths

8 Define robotic paint continuous feature paths - 16 14 Topics

1. Examine the paint continuous robotic process
2. Create and projecting paint manufacturing features
3. Demo: Paint manufacturing features for the whitehouse part
4. Lab: Paint manufacturing features for the whitehouse part
5. Setup paint brushes and meshes
6. Demo: Setup paint brushes and meshes
7. Lab: Setup paint brushes and meshes
8. Modify paint continuous manufacturing features
9. Demo: Modify paint operations and seams
10. Lab: Modify paint operations and seams
11. Simulate paint coverage and more
12. Demo: Simulate paint coverage
13. Lab: Simulate paint coverage
14. Knowledge Check: Define robotic paint continuous feature paths

9 Define other robotic continuous feature paths - 16 11 Topics

1. Examine other continuous robotic processes
2. Create other types of continuous manufacturing features
3. Demo: Deburr manufacturing features for the whitehouse part
4. Lab: Deburr manufacturing features for the whitehouse part
5. Project other types of continuous manufacturing features
6. Demo: Create deburring paths
7. Lab: Create deburring paths
8. Modify continuous manufacturing features
9. Demo: Modify deburr operations and seams
10. Lab: Modify deburr operations and seams
11. Knowledge Check: Define other robotic continuous feature paths

10 Test robot reach and set basic robotic path attributes - 16 14 Topics

1. Test robot’s reachability to the locations
2. Demo: Spot — Test robotic reach
3. Lab: Spot — Test robotic reach
4. Lab: Drill/Rivet — Test robotic reach
5. Lab: Arc — Test robotic reach
6. Lab: Paint — Test robotic reach
7. Lab: Deburr — Test robotic reach
8. Demo: Perform Jump/Move to location and TCP tracking
9. Lab: Perform Jump/Move to location and TCP tracking
10. Perform dynamic and static collision detection
11. Edit location attributes
12. Demo: Edit robotic path location attributes
13. Lab: Edit robotic path location attributes
14. Knowledge Check: Test robot reach and set basic robotic path attributes

11 Add via locations to avoid collisions - 16 17 Topics

1. Identify path modification (via locations) techniques
2. Demo: Add start/end and approach/retract via locations
3. Lab: Add start/end and approach/retract via locations
4. Use via location creation tools
5. Demo: Create collisions lists
6. Lab: Create collisions lists
7. Demo: Using Add Location By Pick
8. Lab: Using Add Location By Pick
9. Use via location modification commands
10. Demo: Simulate a segment of a path
11. Lab: Simulate a segment of a path
12. Demo: Use Manipulate Location
13. Lab: Use Manipulate Location
14. Lab: Use the Automatic Approach Angle dialog box
15. Demo: Spot/Drill/Rivet — Modify locations
16. Lab: Spot/Drill/Rivet — Modify locations
17. Knowledge Check: Add via locations to avoid collisions

12 Identify other path modification and creation tools - 16 15 Topics

1. Identify other path modification techniques
2. Demo: Copy and interpolate the location orientation
3. Lab: Copy and interpolate the location orientation
4. Lab: Mini putting it all together
5. Demo: Reverse and reorder the locations in an operation
6. Lab: Reverse and reorder the locations in an operation
7. Use Automatic Path Planner for robot paths
8. Lab: Spot — Use Automatic Path Planner for robot paths
9. Identify additional path creation tools
10. Lab: Arc/Paint/Debur — Using Replicate Seam Operation
11. Demo: Spot/Drill/Rivet — Using Duplicate Weld Operation
12. Lab: Spot/Drill/Rivet — Using Duplicate Weld Operation
13. Demo: Spot/Drill/Rivet — Using Mirror
14. Lab: Spot/Drill/Rivet — Using Mirror
15. Knowledge Check: Identify other path modification and creation tools

13 Identify location attributes for multiple robot interlocking - 16 17 Topics

1. Identify basic OLP (location) commands
2. Demo: Drive and wait for devices to move
3. Lab: Drive and wait for devices to move
4. Demo: Add a second robot
5. Lab: Add a second robot
6. Demo: Simulate two robots
7. Lab: Simulate two robots
8. Setup multiple robot interlocking
9. Demo: Setup robot signals using the Teach Pendant
10. Lab: Setup robot signals using the Teach Pendant
11. Use the Simulation Monitor
12. Demo: Use Simulation Monitor
13. Lab: Use Simulation Monitor
14. Work with hard and soft limits
15. Demo: Avoid robotic collisions with stationary objects using soft limits
16. Lab: Avoid robotic collisions with stationary objects using soft limits
17. Knowledge Check: Identify location attributes for multiple robot interlocking

14 Create swept volumes, interference zones, and events - 16 11 Topics

1. Create robotic swept volumes and interference zones
2. Demo: Use swept volumes
3. Lab: Use swept volumes
4. Demo: Spot — Use inference zones
5. Lab: Spot — Use inference zones
6. Add events to a sequence of simulative operations
7. Demo: Color events by type and add an attach event
8. Lab: Color events by type and add an attach event
9. Demo: Add a view point event and a pause event
10. Lab: Add a view point event and a pause event
11. Knowledge Check: Create swept volumes, interference zones, and events

15 Examine other robotic path modification tools and techniques - 16 16 Topics

1. Use virtual reality tools
2. Lab: Use virtual reality tools
3. Create arc weld manufacturing features manually
4. Demo: Create arc manufacturing features manually
5. Lab: Create arc manufacturing features manually
6. Demo: Create arc seams (using Project Arc Seam) manually
7. Lab: Create arc seams (using Project Arc Seam) manually
8. Setup robotic dual arm and coordinated motion simulations
9. Demo: Setup and simulate synchronized robot motion
10. Lab: Setup and simulating synchronized robot motion
11. Create a sequences of simulative operations
12. Create and updating spot-welds
13. Create robotic paths from NC paths
14. Identify robotic tools
15. Identify other robotics features
16. Knowledge Check: Examine other robotic path modification tools and techniques

16 Assessment: Develop and simulate Process Simulate robotic paths - 16 1 Topic

1. Assessment: Develop and simulate Process Simulate robotic paths

1 Create object flow simulative operations 21 Topics

1. Identify object flow path basics
2. Create object flow operations
3. Demo: Garage door opener — Open the data
4. Lab: Garage door opener — Open the data
5. Demo: Airplane — Open the data
6. Lab: Airplane — Open the data
7. Demo: Structure — Open the data
8. Lab: Structure — Open the data
9. Demo: Create a simple object flow path
10. Lab: Create a simple object flow path
11. Simulate an assembly path
12. Demo: Simulate the current part along its path
13. Lab: Simulate the current part along its path
14. Demo: Simulate a part along a segment of its path
15. Lab: Simulate a part along a segment of its path
16. Select other grip frames for object flow paths
17. Demo: Identify the current grip frame
18. Lab: Identify the current grip frame
19. Demo: Change the grip frame of a object flow operation
20. Lab: Change the grip frame of a object flow operation
21. Knowledge Check: Create object flow simulative operations

2 Create locations in object flow simulative operations 15 Topics

1. Perform dynamic and static collision detection
2. Demo: Create and setup collision sets
3. Lab: Create and setup collision sets
4. Demo: Create a path to avoid collisions
5. Lab: Create a path to avoid collisions
6. Identify path modification tools
7. Use location creation tools
8. Demo: Use Add Location Interactively
9. Lab: Use Add Location Interactively
10. Use location modification commands
11. Demo: Setup the Path Editor and simulate a segment of a path
12. Lab: Setup the Path Editor and simulate a segment of a path
13. Demo: Use Manipulate Location
14. Lab: Use Manipulate Location
15. Knowledge Check: Create locations in object flow simulative operations

3 Modify locations in object flow simulative operations 10 Topics

1. Perform path modification
2. Demo: Copy the location orientation and reverse/reorder the path
3. Lab: Copy the location orientation and reverse/reorder the path
4. Use Automatic Path Planner for object flow paths
5. Demo: Use Automatic Path Planner for object flows
6. Lab: Use Automatic Path Planner for object flows
7. Create flow operation swept volumes
8. Demo: Create swept volumes with object flow paths
9. Lab: Create swept volumes with object flow paths
10. Knowledge Check: Modify locations in object flow simulative operations

4 Create sequences of object flow simulative operations 9 Topics

1. Create sequences of simulative operations
2. Demo: Setup Gantt chart operations and event colors
3. Lab: Setup Gantt chart operations and event colors
4. Demo: Use the Gantt Chart on the Sequence Editor
5. Lab: Use the Gantt Chart on the Sequence Editor
6. Auto-generate a sequence from an assembly
7. Demo: Use the Automatic Disassembly command to create a sequence
8. Lab: Use the Automatic Disassembly command to create a sequence
9. Knowledge Check: Create sequences of object flow simulative operations

5 Use presentation mode, event creation, and movie manager 12 Topics

1. Activate presentation mode for a simulation
2. Demo: Use presentation mode
3. Lab: Use presentation mode
4. Add events to a sequence of simulative operations
5. Demo: Color events by type and add an attach event
6. Lab: Color events by type and add an attach event
7. Demo: Add a view point event and a pause event
8. Lab: Add a view point event and a pause event
9. Use the Movie Manager
10. Demo: Using Movie Manager
11. Lab: Using Movie Manager
12. Knowledge Check: Use presentation mode, event creation, and movie manager

6 Simulate hand tools and virtual reality 21 Topics

1. Work with hand tools
2. Demo: Checking tool access to a bolt/screw
3. Lab: Checking tool access to a bolt/screw
4. Demo: Removing the bolts/screw with a tool
5. Lab: Removing the bolts/screw with a tool
6. Demo: Use smart tool positioning
7. Lab: Use smart tool positioning
8. Use Virtual Reality tools
9. Demo: Examine the finished computer assembly study
10. Lab: Examine the finished computer assembly study
11. Demo: Rotating the case
12. Lab: Rotating the case
13. Demo: Removing the screws
14. Lab: Removing the screws
15. Demo: Removing the case
16. Lab: Removing the case
17. Demo: Removing a card
18. Lab: Removing a card
19. Demo: Automotive putting it all together
20. Lab: Automotive putting it all together
21. Knowledge Check: Simulate hand tools and virtual reality

7 Assessment: Develop Process Simulate object flow simulations 1 Topic

1. Assessment: Develop Process Simulate object flow simulations

1 Identify the human model and human simulation options 21 Topics

1. Identify human task simulation basics
2. Demo: Examine Jack demo videos
3. Create a study (again)
4. Demo: Create a new study (again)
5. Lab: Create a new study (again)
6. Identify Process Simulate human options
7. Demo: Setup basic human options
8. Lab: Setup basic human options
9. Identify human models
10. Demo: Examine the Jack human model
11. Lab: Examine the Jack human model
12. Set basic human options
13. Demo: Automotive — Open the data
14. Lab: Automotive — Open the data
15. Demo: Airplane — Open the data
16. Lab: Airplane — Open the data
17. Demo: Structure — Open the data
18. Lab: Structure — Open the data
19. Demo: Configure the human and set the active human
20. Lab: Configure the human and set the active human
21. Knowledge Check: Identify the human model and human simulation options

2 Create basic human operations 25 Topics

1. Perform basic posturing tools and kinematic jogging
2. Demo: Use Man Jog
3. Lab: Use Man Jog
4. Demo: Use Joint Jog
5. Lab: Use Joint Jog
6. Use additional posturing and kinematic jogging techniques
7. Demo: Perform quick reaching and bracing
8. Lab: Perform quick reaching and bracing
9. Demo: Use Advanced Man Jog to squat
10. Lab: Use Advanced Man Jog to squat
11. Demo: Use Advanced Man Jog to reach while leaning on a wall
12. Lab: Use Advanced Man Jog to reach while leaning on a wall
13. Use the posture library
14. Demo: Use posture library to apply standing postures
15. Lab: Use posture library to apply standing postures
16. Demo: Add the current posture to the library
17. Lab: Add the current posture to the library
18. Demo: Use posture library to apply crawling, squatting, and sitting postures
19. Lab: Use posture library to apply crawling, squatting, and sitting postures
20. Use the vision window, vision envelope, and grasp envelope
21. Demo: Visualize grasp envelopes
22. Lab: Visualize grasp envelopes
23. Demo: Display a Vision Envelope and Window
24. Lab: Display a Vision Envelope and Window
25. Knowledge Check: Create basic human operations

3 Create human operations using Task Simulation Builder (TSB) 19 Topics

1. Assign object weight and lifting frequency
2. Demo: Identify two ways to assign weight values
3. Lab: Identify two ways to assign weight values
4. Use high-level task creation tools (TSB)
5. Demo: Use TSB to get and place an object
6. Lab: Use TSB to get and place an object
7. Demo: Identify other ways to walk and move objects with TSB
8. Lab: Identify other ways to walk and move objects with TSB
9. Demo: Create reports from TSB
10. Lab: Create reports from TSB
11. Examine additional Task Simulation Builder (TSB) features
12. Demo: Use TSB skills
13. Lab: Use TSB skills
14. Simulate hand tools with TSB
15. Demo: Simulate hand tool use with TSB
16. Lab: Simulate hand tool use with TSB
17. Demo: Use smart tool position TSB
18. Lab: Use smart tool position TSB
19. Knowledge Check: Create human operations Use Task Simulation Builder (TSB)

4 Create human operations using other automatic posture tools (part 1) 22 Topics

1. Move objects with operation creation tools
2. Define hand grasps and reaches using Grasp Wizard
3. Demo: Structural — Use the Grasp Wizard with a close hand straight finger posture
4. Lab: Structural — Use the Grasp Wizard with a close hand straight finger posture
5. Demo: Use the Grasp Wizard with a contact finger posture
6. Lab: Use the Grasp Wizard with a contact finger posture
7. Demo: Use the Grasp Wizard with a circular precision finger posture
8. Lab: Use the Grasp Wizard with a circular precision finger posture
9. Demo: Use the Grasp Wizard with a prismatic finger posture
10. Lab: Use the Grasp Wizard with a prismatic finger posture
11. Use Auto Grasp
12. Demo: Perform a basic Auto Grasp
13. Lab: Perform a basic Auto Grasp
14. Examine humans and direct kinematics scenarios
15. Demo: Simulate humans and levers
16. Lab: Simulate humans and levers
17. Examine humans and inverse kinematics scenarios
18. Demo: Automotive — Simulate humans and material handling
19. Lab: Automotive — Simulate humans and material handling
20. Demo: Automotive — Simulate humans and spot welding
21. Lab: Automotive — Simulate humans and spot welding
22. Knowledge Check: Create human operations using other automatic posture tools (part 1)

5 Create human operations using other automatic posture tools (part 2) 17 Topics

1. Create a simulation of a human using hand tools in a confined space
2. Demo: Structural — Open the structural data
3. Lab: Structural — Open the structural data
4. Demo: Structural — Identify two methods to grasp hand tools
5. Lab: Structural — Identify two methods to grasp hand tools
6. Demo: Structural — Move grasped hand tools
7. Lab: Structural — Move grasped hand tools
8. Examine humans and moving line scenarios
9. Demo: Identify moving line scenario 1 and 2
10. Lab: Identify moving line scenario 1 and 2
11. Demo: Identify moving line scenario 3 and 4
12. Lab: Identify moving line scenario 3 and 4
13. Examine two human simulation scenarios
14. Perform human operation copy
15. Demo: Copy human operations for another worker
16. Lab: Copy human operations for another worker
17. Knowledge Check: Create human operations Use other automatic posture tools (part 2)

6 Create and view ergonomic reports (part 1) 18 Topics

1. Examine basic ergonomics concepts
2. Assign additional forces to any body part
3. Demo: Assign loads and weights and use the Force Solver
4. Lab: Assign loads and weights and use the Force Solver
5. Use the ergonomics report viewer
6. Identify OWAS reports
7. Demo: Perform OWAS analysis
8. Lab: Perform OWAS analysis
9. Identify NIOSH reports
10. Demo: Perform an NIOSH analysis
11. Lab: Perform an NIOSH analysis
12. Identify static strength prediction (SSP) reports
13. Demo: Create a Static Strength Prediction report
14. Lab: Create a Static Strength Prediction report
15. Identify lower back analysis DMH reports
16. Demo: Create a lower back analysis report
17. Lab: Create a lower back analysis report
18. Knowledge Check: Create and view ergonomic reports (part 1)

7 Create and view ergonomic reports (part 2) 20 Topics

1. Identify Cumulative Back Load reports
2. Demo: Create a cumulative back load report
3. Lab: Create a cumulative back load report
4. Identify RULA reports
5. Demo: Perform a RULA analysis
6. Lab: Perform a RULA analysis
7. Identify fatigue reports
8. Demo: Perform a fatigue analysis
9. Lab: Perform a fatigue analysis
10. Identify Garg reports
11. Demo: Perform a Garg analysis
12. Lab: Perform a Garg analysis
13. Identify EAWS reports
14. Identify custom reports
15. Demo: Perform a generic analysis using a custom report
16. Lab: Perform a generic analysis using a custom report
17. Identify arm strength evaluation reports
18. Demo: Perform an arm strength evaluation
19. Lab: Perform an arm strength evaluation
20. Knowledge Check: Create and view ergonomic reports (part 1)

8 Assign a duration to human operations 12 Topics

1. Examine human task time assignment
2. Identify simple methods for assigning duration
3. Demo: Adjust the human operation time
4. Lab: Adjust the human operation time
5. Identify basic MTM standard concepts
6. Assign datacard values
7. Demo: Assign MTM values to operations
8. Lab: Assign MTM values to operations
9. Putting it all together
10. Demo: Perform a human simulation putting it all together
11. Lab: Perform a human simulation putting it all together
12. Knowledge Check: Assign a duration to human operations

9 Identify other Process Simulate human tools 15 Topics

1. Create hand models
2. Demo: Grasp an object with a hand model
3. Lab: Grasp an object with a hand model
4. Use other “Jack” mannequins
5. Demo: Insert example textured human models
6. Lab: Insert example textured human models
7. Use the Joint limitation library
8. Demo: Create a new joint limitation set
9. Lab: Create a new joint limitation set
10. Create and use a custom datacard
11. Demo: Select and use a custom datacard
12. Lab: Select and use a custom datacard
13. Demo: Setup a custom datacard
14. Lab: Setup a custom datacard
15. Knowledge Check: Identify other Process Simulate human tools

10 Use traditional techniques to create human simulations (part 1) 13 Topics

1. Examine additional techniques to position and walk the human model
2. Demo: Create sideways and predictive stepping walk operations
3. Lab: Create sideways and predictive stepping walk operations
4. Demo: Create a walk operation of multiple locations using the Path Creator
5. Lab: Create a walk operation of multiple locations using the Path Creator
6. Demo: Walk up stairs
7. Lab: Walk up stairs
8. Examine human operation modification techniques
9. Demo: Examine human operations
10. Lab: Examine human operations
11. Demo: Modify a walk by editing it
12. Lab: Modify a walk by editing it
13. Knowledge Check: Use traditional techniques to create human simulations (part 1)

11 Use traditional techniques to create human simulations (part 2) 13 Topics

1. Create a simple grasp task
2. Demo: Auto grasping a tray
3. Lab: Auto grasping a tray
4. Demo: Refine a simple carry task
5. Lab: Refine a simple carry task
6. Walk to follow carried objects
7. Demo: Use Place Object to carry an object
8. Lab: Use Place Object to carry an object
9. Set down objects without walking
10. Demo: Create new paths with Place Object
11. Lab: Create new paths with Place Object
12. Identify techniques to control the eyes, head, and legs
13. Knowledge Check: Use traditional techniques to create human simulations (part 2)

12 Examine features related to body and hand motion capture 12 Topics

1. Identify the basics of body and hand motion capture
2. Use Jack Collaboration
3. Use the Posture Recorder
4. Demo: Use Posture Recorder to create a posture operation
5. Lab: Use Posture Recorder to create a posture operation
6. Use Microsoft Kinect motion tracking with Process Simulate
7. Identify other body motion capture (motion tracker) systems
8. Identify disembodied heads and hands
9. Identify the basics of hand motion capture (gloves)
10. Use follow the leader with tracked humans
11. Use TSB and motion capture
12. Knowledge Check: Examine features related to body and hand motion capture

13 Assessment: Develop Process Simulate human simulations 1 Topic

1. Assessment: Develop Process Simulate human simulations

1 Create snapshots, markups, notes, and pictures 22 Topics

1. Use Multipart appearances
2. Demo: Work with multi part appearances
3. Lab: Work with multi part appearances
4. Create and use snapshots and the Markup Editor
5. Demo: Create snapshots
6. Lab: Create snapshots
7. Demo: Create markups
8. Lab: Create markups
9. Adding text in the Graphic Viewer
10. Demo: Set the note options
11. Lab: Set the note options
12. Demo: Create notes in the Graphic Viewer
13. Lab: Create notes in the Graphic Viewer
14. Demo: Create dimensions in the Graphic Viewer
15. Lab: Create dimensions in the Graphic Viewer
16. Store pictures of the study
17. Demo: Output the Graphic Viewer to a file or printer
18. Lab: Output the Graphic Viewer to a file or printer
19. Output video and HTML files
20. Demo: Create a video and an HTML file
21. Lab: Create a video and an HTML file
22. Assessment: Create snapshots, markups, text, and pictures

2 Create sections and define cables 14 Topics

1. Cut sections
2. Demo: Create and move a section plane
3. Lab: Create and move a section plane
4. Demo: Identify additional section tools
5. Lab: Identify additional section tools
6. Demo: Create and move a section volume
7. Lab: Create and move a section volume
8. Create and use basic cables
9. Demo: Create, edit, and move cables
10. Lab: Create, edit, and move cables
11. Edit cable parameters and attachments
12. Demo: Adjust cable parameters use fixed cable attachments
13. Lab: Adjust cable parameters use fixed cable attachments
14. Assessment: Create sections and define cables

3 Import component geometry 3 Topics

1. Import CAD files in Process Simulate
2. Lab: Import component geometry from an IGES or JT file
3. Assessment: Import component geometry

4 Model geometry in Process Simulate 12 Topics

1. Identify the process to model in Process Simulate
2. Identify modeling concepts
3. Model using solid primitives
4. Demo: Model a simple geometric table
5. Lab: Model a simple geometric table
6. Demo: Revolve 2D entities to make a solid
7. Lab: Revolve 2D entities to make a solid
8. Demo: Extrude 2D entities to make a solid
9. Lab: Extrude 2D entities to make a solid
10. Demo: Model a portion of a simple robot
11. Lab: Model a portion of a simple robot
12. Assessment: Model geometry in Process Simulate

5 Define basic kinematics in Process Simulate 11 Topics

1. Identify kinematics background concepts
2. Demo: Define simple kinematics (part 1)
3. Lab: Define simple kinematics (part 1)
4. Demo: Define simple kinematics (part 2)
5. Lab: Define simple kinematics (part 2)
6. Summarize kinematics basics
7. Demo: Add joints to a simple object
8. Lab: Add joints to a simple object
9. Demo: Define leading joints and follow factors (robot tool)
10. Lab: Define leading joints and follow factors (robot tool)
11. Assessment: Define basic kinematics in Process Simulate

6 Define basic kinematic cranks and robotic tools 28 Topics

1. Identify kinematic cranks
2. Demo: Define kinematic looping demo
3. Lab: Define kinematic looping demo
4. Demo: Define kinematic looping
5. Lab: Define kinematic looping
6. Define branching kinematic branching, speed, and acceleration
7. Demo: Define a kinematic robot tool (part 1)
8. Lab: Define a kinematic robot tool (part 1)
9. Demo: Define a kinematic robot tool (part 2)
10. Lab: Define a kinematic robot tool (part 2)
11. Demo: Define joint speed and acceleration
12. Lab: Define joint speed and acceleration
13. Define an object as a tool
14. Demo: Spot — Define an object as a pneumatic spot-weld gun
15. Lab: Spot — Define an object as a pneumatic spot-weld gun
16. Demo: Spot — Define an object as a servo spot-weld gun
17. Lab: Spot — Define an object as a servo spot-weld gun
18. Demo: Drill/Rivet — Define an object as a drill/rivet gun
19. Lab: Drill/Rivet — Define an object as a drill/rivet gun
20. Demo: Material handling — Define an object as a gripper
21. Lab: Material handling — Define an object as a gripper
22. Demo: Arc — Define an object as an arc-weld torch
23. Lab: Arc — Define an object as an arc-weld torch
24. Demo: Paint — Define an object as a paint gun
25. Lab: Paint — Define an object as a paint gun
26. Demo: Debur — Defining an object as a deburring tool
27. Lab: Debur — Defining an object as a deburring tool
28. Assessment: Define basic kinematic cranks and robotic tools

7 Define basic robot kinematics 13 Topics

1. Examine inverse kinematics
2. Demo: Add kinematics to a robot model
3. Lab: Add kinematics to a robot model
4. Demo: Using direct kinematics to move the robot
5. Lab: Use direct kinematics to move the robot
6. Create and use inverse kinematics devices
7. Demo: Add a tool frame
8. Lab: Add a tool frame
9. Demo: Use inverse kinematics to move the robot
10. Lab: Use inverse kinematics to move the robot
11. Demo: Identify other inverse kinematics examples
12. Lab: Identify other inverse kinematics examples
13. Assessment: Define basic robot kinematics

8 Define advanced kinematics, rails, gantries, and positioners 14 Topics

1. Define kinematics for rails, gantries, and positioners (external axis)
2. Demo: Create simple geometry and kinematics for a robotic rail
3. Lab: Create simple geometry and kinematics for a robotic rail
4. Demo: Identify other slider cranks including offset slider
5. Lab: Identify other slider cranks including offset slider
6. Define slot joints
7. Demo: Create slot joints
8. Lab: Create slot joints
9. Define joints with variable limits
10. Demo: Understand variable joint limits
11. Lab: Understand variable joint limits
12. Demo: Define the variable limits
13. Lab: Define the variable limits
14. Assessment: Define advanced kinematics, rails, gantries, and positioners

9 Define advanced kinematic functions, compound equipment, and motion parameter files 14 Topics

1. Examine techniques to create more complex kinematic functions
2. Demo: Implement joint logic with functions
3. Lab: Implement joint logic with functions
4. Demo: Define kinematics following a surface
5. Lab: Define kinematics following a surface
6. Demo: Examine a train joint
7. Lab: Examine a train joint
8. Demo: Examine a cam joint
9. Lab: Examine a cam joint
10. Create compound equipment
11. Demo: Setup compound equipment
12. Lab: Setup compound equipment
13. Identify advanced kinematic definitions using the MotionParameters.e file
14. Assessment: Define advanced kinematic functions, compound equipment, and motion parameter files

1 Identify virtual commissioning and TIA Portal 7 Topics

1. Identify virtual commissioning concepts
2. Identify virtual commissioning connection concepts
3. Lab: Setup Process Simulate data for VC
4. Identify TIA Portal basics for Process Simulate
5. Lab: Configure TIA Portal
6. Lab: Test TIA Portal
7. Knowledge Check: Identify virtual commissioning and TIA Portal

2 Setup a virtual PLC for virtual commissioning 12 Topics

1. Setup Proess Simulate VC with OPC DA
2. Lab: Example configuration of an OPC DA server
3. Lab: Example usage of automation software
4. Lab: Use a OPC DA connection
5. Setup Process Simulate VC with PLCSIM classic
6. Lab: Device control with PLCSIM classic
7. Setup Process Simulate VC with PLCSIM Advanced
8. Lab: Device control with PLCSIM Advanced
9. Setup Process Simulate VC with OPC UA
10. Lab: Device control with OPC UA
11. Setup Process Simulate VC with Simulation Unit
12. Knowledge Check: Setup a virtual PLC for virtual commissioning

3 Setup Process Simulate for virtual commissioning 12 Topics

1. Perform PLC to Process Simulate mapping
2. Lab: Switch TIA Portal files and connection
3. Lab: Perform signal mapping
4. Lab: Perform Simatic Step 7 mapping
5. Replace Non-sim and flow operations and modules in PLC mode
6. Lab: Create a custom logic block to handle non-sim and flow operations in PLC mode
7. Lab: Create a prototype generic logic block and use it for each non-sim and flow operation in PLC mode
8. Lab: Replace the modules with logic blocks
9. Lab: Run a simulation in PLC mode
10. Perform virtual commissioning - Putting it all together
11. Lab: Test logic in manual mode
12. Knowledge Check: Setup Process Simulate for virtual commissioning

4 Assessment: Setup and perform Process Simulate virtual commissioning 1 Topic

1. Assessment: Setup and perform Process Simulate virtual commissioning

1 Identify event-based simulation basics for automation 25 Topics

1. Identify event-based robotics
2. Demo: Setup the robot macro folder
3. Lab: Setup the robot macro folder
4. Simulating and triggering events
5. Demo: Identify the Simulation Panel
6. Lab: Identify the Simulation Panel
7. Demo: Test the logic of a robotic workcell in "manual mode"
8. Lab: Test the logic of a robotic workcell in "manual mode"
9. Introduction to signals
10. Identify the Signal Viewer
11. Demo: Create a new signal
12. Lab: Create a new signal
13. Identify CEE operational transitions
14. Demo: Identify existing transition conditions
15. Lab: Identify existing transition conditions
16. Identify Process Simulate sensors
17. Demo: Identify existing sensors
18. Lab: Identify existing sensors
19. View logic blocks and smart components
20. Demo: Identify logic block content and its connections
21. Lab: Identify logic block content and its connections
22. Identify the Modules Viewer
23. Demo: Identify a module and its content
24. Lab: Identify a module and its content
25. Knowledge Check: Identify event-based simulation basics for automation

2 Establish part appearances and the material flow 11 Topics

1. Use appearances in event-based studies
2. Lab: Open an event-based study
3. More on working with studies
4. Use part appearances
5. Identify basic object flow techniques
6. Demo: Generate part appearances with a non-sim operation
7. Lab: Generate part appearances with a non-sim operation
8. Demo: Generate part appearances with an object flow operation
9. Lab: Generate part appearances with an object flow operation
10. Quick tips to part appearance and material flow problems
11. Knowledge Check: Establish part appearances and the material flow

3 Define and simulate sensors and conveyors (part 1) 13 Topics

1. Identify sensor types
2. Create photoelectric sensors (light sensors)
3. Demo: Setup the basic event-based study
4. Lab: Setup the basic event-based study
5. Demo: Create and use light sensors
6. Lab: Create and use light sensors
7. Create proximity sensors
8. Demo: Create and use proximity sensors
9. Lab: Create and use proximity sensors
10. Identify conveyors and skids
11. Demo: Create a conveyor using a curve
12. Lab: Create a conveyor using a curve
13. Knowledge Check: Define and simulate sensors and conveyors (part 1)

4 Define and simulate sensors and conveyors (part 2) 11 Topics

1. Configure a conveyor and conveyable parts
2. Lab: Open the Ex5 study
3. Demo: Add a conveyor and sensors
4. Lab: Add a conveyor and sensors
5. Lab: Use conveyable parts, a conveyor, and sensors
6. Create property projectors
7. Lab: Define property lists and property projectors
8. Create property sensors
9. Lab: Create and use property sensors
10. Quick tips to debug a conveyor or sensor simulation
11. Knowledge Check: Define and simulate sensors and conveyors (part 2)

5 Define and simulate basic logic blocks 16 Topics

1. Safety mat example
2. Lab: Define a safety mat
3. Logic block algebraic behavior
4. Demo: Create a simple counter
5. Lab: Create a simple counter
6. Rising edge and falling edge functions
7. Demo: Use falling edge in a logic block
8. Lab: Use falling edge in a logic block
9. Examine logic block functions for a press
10. Demo: Test the functions in the press example
11. Lab: Test the functions in the press example
12. CNC controller logic block example
13. Demo: Use time delays in logic blocks
14. Lab: Use time delays in logic blocks
15. Lab: Use mixed Boolean and algebraic expressions
16. Knowledge Check: Define and simulate basic logic blocks

6 Define and simulate smart components 13 Topics

1. Smart components
2. Light stack example
3. Demo: Create geometry for a reusable light stack
4. Lab: Create geometry for a reusable light stack
5. Demo: Create and testing kinematics for a reusable light stack
6. Lab: Create and testing kinematics for a reusable light stack
7. Lab: Create and testing logic for a reusable light stack
8. Perform connection mapping
9. Identify a custom conveyor example
10. Lab: Define a “default” conveyor
11. Lab: Define a “custom” conveyor
12. Quick tips for logic block simulations
13. Knowledge Check: Define and simulate smart components

7 Putting It All Together: Use smart components, modules, and sensors together 20 Topics

1. Beginning of the putting it all together
2. Create line simulation studies
3. Demo: Open and examine a simple event-based study
4. Lab: Open and exame a simple event-based study
5. Perform automatic smart component creation
6. Demo: Setup the clamps and pins smart component
7. Lab: Setup the clamps and pins smart component
8. Create and Use modules
9. Demo: Create a new module
10. Lab: Create a new module
11. Create proximity sensor
12. Demo: Create part proximity sensors on the fixture and conveyor
13. Lab: Create part proximity sensors on the fixture and conveyor
14. Generate part appearances (again)
15. Demo: Generating part appearances
16. Lab: Generating part appearances
17. Create new non-sim operations for logic
18. Demo: Create the initial operation
19. Lab: Create the initial operation
20. Knowledge Check: Putting It All Together: Use smart components, modules, and sensors together

8 Define and simulate basic robotic event-based simulations (part 1) 12 Topics

1. Introduction to event-based robotics
2. Setup a basic robotic zone
3. Demo: Setup a basic robotic zone
4. Lab: Setup a basic robotic zone
5. Basic robot macros
6. Demo: Use basic robot macros
7. Lab: Use basic robot macros
8. Identify default signals and robot programs
9. Demo: Test the simulation
10. Lab: Test the simulation
11. Calling paths from main programs
12. Knowledge Check: Define and simulate basic robotic event-based simulations (part 1)

9 Define and simulate basic robotic event-based simulations (part 2) 14 Topics

1. Use robot program conditions
2. Demo: Enter basic OLP commands as free text
3. Lab: Enter basic OLP commands as free text
4. Setup robot path segment communication
5. Demo: Setup robot path segment communication
6. Lab: Setup robot path segment communication
7. Signal graphs in the Robot Viewer
8. Demo: Use the Robot Viewer in event-based studies
9. Lab: Use the Robot Viewer in event-based studies
10. Create various Excel reports
11. Lab: Create basic Excel reports
12. Lab: Create cycle time reports
13. Quick tips for robot signals and macros
14. Knowledge Check: Define and simulate basic robotic event-based simulations (part 2)

10 Putting It All Together: Use fixtures, robots, and conveyors together 10 Topics

1. Fixture and robot 1 putting it all together
2. Demo: Simulate the fixture and first robot (part 1)
3. Lab: Simulate the fixture and first robot (part 1)
4. Demo: Simulate the fixture and first robot (part 2)
5. Lab: Simulate the fixture and first robot (part 2)
6. Robot 2 and conveyor putting it all together
7. Demo: Add the second robot and conveyor (part 1)
8. Lab: Add the second robot and conveyor (part 1)
9. Lab: Add the second robot and conveyor (part 2)
10. Knowledge Check: Putting It All Together: Use fixtures, robots, and conveyors together

11 Assessment: Develop Process Simulate robotic and automation event-based simulations (CEE) 1 Topic

1. Assessment: Develop Process Simulate robotic and automation event-based simulations (CEE)

1 Setup and use cameras - 16 11 Topics

1. Configure camera settings
2. Create custom views (camera marks)
3. Create custom views (camera marks)
4. Add cameras to the 3D Window
5. Add cameras to the 3D Window
6. Fly through the scene
7. Prepare for the flying cameras
8. Prepare for the flying cameras
9. Fly by not following an object (typical method)
10. Fly by not following an object (typical method)
11. Knowledge Check

2 Import and create a library of 3D objects - 16 25 Topics

1. Identify graphics libraries and modify object graphics
2. Load more standard libraries into your model
3. Load more standard libraries into your model
4. Get setup to edit the geometry of objects in a library
5. Get setup to edit the geometry of objects in a library
6. Removing the graphics (geometry) of a Station
7. Removing the graphics (geometry) of a Station
8. Import object graphics
9. Import 3D data (.WRL format)
10. Import 3D data (.WRL format)
11. Import 3D data (.JT format)
12. Import 3D data (.JT format)
13. Change object 3D settings
14. Change graphic settings for 3D objects
15. Change graphic settings for 3D objects
16. Create graphics in Plant Simulation
17. Get setup to modify the graphics of an object
18. Get setup to modify the graphics of an object
19. Create 3D geometry
20. Create 3D geometry
21. Create text in a 3D window
22. Identify the graphic and simulation object relationship
23. Create simulation objects from a graphic layout
24. Create simulation objects from a graphic layout
25. Knowledge Check

3 Create MU animation and animatable objects - 16 13 Topics

1. Create MU animation paths on material flow objects
2. Setup and use MU animation on a container
3. Setup and use MU animation on a container
4. Move animatable graphics during simulation
5. Create and use press and robot animatable graphics
6. Create and use press and robot animatable graphics
7. Simulate an animatable press and custom robot
8. Simulate an animatable press and custom robot
9. Add MU animation to animatable graphics
10. Add MU animation to animatable graphics
11. Use interactive robot pose
12. Use interactive robot pose
13. Knowledge Check

4 Customize 3D objects with methods - 16 11 Topics

1. Access graphics with methods
2. Write methods to access 3D objects
3. Create a 3D push button and light stack
4. Create a 3D push button and light stack
5. Create and test the custom logic for the light stack and push button
6. Create and test the custom logic for the light stack and push button
7. Identify factors that affect graphics performance
8. Import, export, and create graphics with a method
9. Traverse a model and select an object
10. Configure 3D objects and extrusions using a method
11. Knowledge Check

5 Use advanced worker techniques - 16 8 Topics

1. Configure worker visualization
2. Define workers to move parts between stations
3. Model a worker who carries a part between workplaces
4. Model a worker who carries a part between workplaces
5. Walk on ramps / stairs and through gates
6. Model workers with fences and ramps
7. Model workers with fences and ramps
8. Knowledge Check

1 Model transporters and working on lines 22 Topics

1. Automatic transporter and part routing
2. Configure an AGV with automatic track routing
3. Configure an AGV with automatic track routing
4. Transport parts with tugger trains
5. Define tugger trains using a method and a table (part 1)
6. Define tugger trains using a method and a table (part 1)
7. Define tugger trains using a method and a table (part 2)
8. Define tugger trains using a method and a table (part 2)
9. Implement free moving transporters and AGVs
10. Use free moving transporters
11. Use free moving transporters
12. Use free moving forklifts
13. Use free moving forklifts
14. Identify two-lane tracks
15. Examine a two-lane track demo model
16. Examine a two-lane track demo model
17. Change MU orientation during simulation
18. Use Converter, AngularConverter, TurnPlate, and TurnTable
19. Use Converter, AngularConverter, TurnPlate, and TurnTable
20. Use an MU attribute to control the behavior of a part on a conveying system
21. Use an MU attribute to control the behavior of a part on a conveying system
22. Assessment: Model transporters and working on lines

2 Debug models and improve method performance 14 Topics

1. Analyze method logic using the Method Debugger
2. Use expressions and breakpoints in the method debugger
3. Use expressions and breakpoints in the method debugger
4. Analyze model behavior using the Event Debugger
5. Use breakpoints and create a trace file in the Event Debugger
6. Use breakpoints and create a trace file in the Event Debugger
7. Analyze method execution efficiency using the Profiler
8. Activate the Profiler
9. Activate the Profiler
10. Use writing techniques to optimize method performance (part 1)
11. Use writing techniques to optimize method performance (part 2)
12. Use the profiler to examine the efficiency of methods
13. Use the profiler to examine the efficiency of methods
14. Assessment: Debug models and improve method performance

3 Model using distributions and random numbers 12 Topics

1. Explore important distributions
2. Identify how random numbers are created and used in Plant Simulation
3. Setup a stochastic frame
4. Setup a stochastic frame
5. Increment the random number variant in stochastic models
6. Increment the random number variant in stochastic models
7. Implement custom state of objects
8. Implement custom states/statistics (part 1)
9. Implement custom states/statistics (part 1)
10. Implement custom states/statistics (part 2)
11. Implement custom states/statistics (part 2)
12. Assessment: Model using distributions and random numbers

4 Use statistical tools and variance 21 Topics

1. Identify and add stochastic tools to your model
2. Load the DataFit objects into a model file
3. Load the DataFit objects into a model file
4. Dive into Plant Simulation statistical tools
5. Identify tools to determine the parameters of a probability distribution
6. Identify tools to determine the parameters of a probability distribution
7. Identify tools to investigate the results of a stochastic simulation
8. Identify tools to investigate the results of a stochastic simulation
9. Configure and view confidence intervals
10. Use the Confidence Interval object
11. Use the Confidence Interval object
12. Use the sequential sampler and variants generator
13. Run a simulation using a sequential sampler
14. Run a simulation using a sequential sampler
15. Use a VariantsGenerator to set the MU list for a car (part 1)
16. Use a VariantsGenerator to set the MU list for a car (part 1)
17. Use a VariantsGenerator to set the MU list for a car (part 2)
18. Use a VariantsGenerator to set the MU list for a car (part 2)
19. Configure a VariantsGenerator using a method
20. Configure a VariantsGenerator using a method
21. Assessment: Use statistical tools and variance

5 Model cranes, gantries, and lifts 14 Topics

1. Setup and coordinate multiple overhead cranes
2. Implement a Multi-Portal object with one crane
3. Implement a Multi-Portal object with one crane
4. Set up multiple pick locations for the Multi-Portal with in crane
5. Set up multiple pick locations for the Multi-Portal with in crane
6. Implement a Multi-Portal object with two cranes and collision detection
7. Implement a Multi-Portal object with two cranes and collision detection
8. Setup and use gantries
9. Setup and use a gantry
10. Setup and use a gantry
11. Setup and use lifts
12. Setup and use a lift
13. Setup and use a lift
14. Assessment: Model cranes, gantries, and lifts

6 Create user-defined interfaces, dialogs, and menus (part 1) 25 Topics

1. Create user-defined interfaces and dialogs
2. Distinguish Button, Checkbox, and Drop-down list objects
3. Distinguish Button, Checkbox, and Drop-down list objects
4. Examine an implemented user-defined Dialog
5. Examine an implemented user-defined Dialog
6. Create your first user-defined Dialog
7. Create your first user-defined Dialog
8. Run a user-defined dialog directly
9. Run a user-defined dialog directly
10. Run user-defined dialog as an open control
11. Run user-defined dialog as an open control
12. Edit a user-defined dialog later
13. Edit a user-defined dialog later
14. Implement an advanced user-defined dialog
15. Setup the initial frame objects for a user-defined Dialog
16. Setup the initial frame objects for a user-defined Dialog
17. Setup the Mode tab of the user-defined dialog
18. Setup the Mode tab of the user-defined dialog
19. Setup the Failure tab of the user-defined dialog (part 1)
20. Setup the Failure tab of the user-defined dialog (part 1)
21. Setup the Failure tab of the user-defined dialog (part 2)
22. Setup the Failure tab of the user-defined dialog (part 2)
23. Setup the Results tab of the user-defined dialog
24. Setup the Results tab of the user-defined dialog
25. Assessment: Create user-defined interfaces, dialogs, and menus (part 1)

7 Create user-defined interfaces, dialogs, and menus (part 2) 17 Topics

1. Create custom menus and custom right click menus
2. Create a custom right-click menu for an object
3. Create a custom right-click menu for an object
4. Create and use custom objects and libraries
5. Create and use .OBJ files
6. Create and use .OBJ files
7. Setup a custom library object (part 1)
8. Setup a custom library object (part 1)
9. Setup a custom library object (part 2)
10. Setup a custom library object (part 2)
11. Use a custom library object
12. Use a custom library object
13. Update the master version of a custom library object
14. Update the master version of a custom library object
15. Update the version of a custom library object in another model
16. Update the version of a custom library object in another model
17. Assessment: Create user-defined interfaces, dialogs, and menus (part 2)

8 Process specific examples 20 Topics

1. Model free-flowing materials
2. Create a basic 3D fluid simulation
3. Create a basic 3D fluid simulation
4. Create a 3D fluid simulation with a deportioner
5. Create a 3D fluid simulation with a deportioner
6. Model a machine shop
7. Create a basic machine shop (part 1)
8. Create a basic machine shop (part 1)
9. Create a basic machine shop (part 2)
10. Create a basic machine shop (part 2)
11. Add workers to the shop
12. Identify the supermarket concept in Plant Simulation
13. Use the manufacturing supermarket concept in Plant Simulation
14. Use the manufacturing supermarket concept in Plant Simulation
15. Use the manufacturing supermarket concept in Plant Simulation (part 2)
16. Use the manufacturing supermarket concept in Plant Simulation (part 2)
17. Model a high bay warehouse (HBW)
18. Lab: Model a high bay warehouse (HBW)
19. Model a high bay warehouse (HBW)
20. Assessment: Process specific examples

9 Create models in 2D with display panels 8 Topics

1. Create a model using 2D objects and display panels
2. Model in 2D (part 1)
3. Model in 2D (part 1)
4. Model in 2D (part 2)
5. Model in 2D (part 2)
6. Setup a display panel for an object
7. Setup a display panel for an object
8. Assessment: Create models in 2D with display panels

10 Use the 2D icon editor and vector graphics 13 Topics

1. Define object 2D representation
2. Modify (2D) icons for custom objects
3. Modify (2D) icons for custom objects
4. Setup (2D) MU icon animation
5. Setup (2D) MU animation points
6. Setup (2D) MU animation points
7. Configure state icons, background icons, and toolbox icons
8. Create a custom toolbar in the Toolbox
9. Create a custom toolbar in the Toolbox
10. Add frame vector graphics and comments
11. Make a (2D) frame attractive by adding a background color, vector graphics, and comments
12. Make a (2D) frame attractive by adding a background color, vector graphics, and comments
13. Assessment: Use the 2D icon editor and vector graphics

1 Perform basic experimental design - 16 8 Topics

1. Perform a basic set of experiments with Experiment Manager
2. Set up ExperimentManager input values and experiments for a basic model
3. Set up ExperimentManager input values and experiments for a basic model
4. Define output values, run, and evaluate basic experiments with ExperimentManager
5. Define output values, run, and evaluate basic experiments with ExperimentManager
6. Use multi-level experimental design
7. Use multi-level experimental design
8. Assessment: Perform basic experimental design

2 Perform advanced experimental design - 16 13 Topics

1. Use random or rule-based experimental design to setup the experiments
2. Use random experimental design
3. Use random experimental design
4. Set up ExperimentManager rules
5. Set up ExperimentManager rules
6. View ExperimentManager rules in another model
7. View ExperimentManager rules in another model
8. Use two-level experimental design, analysis of factors, and factorial regression
9. Examine a two-level experimental design example
10. Examine a two-level experimental design example
11. Use factorial regression
12. Use factorial regression
13. Assessment: Perform advanced experimental design

3 Perform experiments using neural networks - 16 9 Topics

1. Identify the steps to using a neural network
2. Use a simple neural network
3. Use a simple neural network
4. Optimize a model using a neural network
5. Forecast results with a neural network
6. Forecast results with a neural network
7. Identify neural network extended settings
8. Identify neural network extended settings
9. Assessment: Perform experiments using neural networks

4 Optimize with stochastic simulation - 16 7 Topics

1. Explore genetic algorithm use cases and alternatives
2. Determine a sequence of orders and assignments of orders to factories using genetic algorithms
3. Determine a sequence of orders and assignments of orders to factories using genetic algorithms
4. Identify very difficult problems and algorithms for their solution
5. Compare various model optimization techniques
6. Compare various model optimization techniques
7. Assessment: Optimize with stochastic simulation

5 Optimize a model using genetic algorithms - 16 15 Topics

1. Perform automatic optimization with genetic algorithms
2. Explore genetic algorithm parameters and tasks
3. Optimize sequential tasks
4. Create the entire model frame content using a method
5. Create the entire model frame content using a method
6. Define a basic genetic algorithm optimization task
7. Define a basic genetic algorithm optimization task
8. Evaluate a basic genetic algorithm optimization task
9. Evaluate a basic genetic algorithm optimization task
10. Apply genetic algorithms to the traveling salesman problem
11. Apply genetic algorithms to the traveling salesman problem
12. Configure the GA wizard controls
13. View genetic algorithm controls and settings
14. View genetic algorithm controls and settings
15. Assessment: Optimize a model using genetic algorithms

1 Use advanced file interfaces and communication protocols 8 Topics

1. Identify types of application interfaces for Plant Simulation
2. What file interfaces to other applications are available?
3. Record the throughput time using a file interface
4. Record the throughput time using a file interface
5. Use the DDE interface with Excel and embedding files
6. Use the DDE interface with Excel and embedding files
7. Identify some of the available communication protocols
8. Assessment: Use advanced file interfaces and communication protocols

2 Use the Plant Simulation Teamcenter interface 16 Topics

1. Manage Plant Simulation models in Teamcenter
2. Manage Plant Simulation models in Teamcenter
3. Identify the Plant Simulation and Teamcenter data connection
4. Examine TeamcenterBOE structures for export to Plant Simulation
5. Create collaboration context and AI to set data to Plant Simulation
6. Configure the Plant Simulation Wizard
7. Configure the Plant Simulation Wizard
8. Configure the Teamcenter Wizard in Plant Simulation
9. Import a BOE from Teamcenter to Plant Simulation
10. Examine Teamcenter BOM and BOP structures for export to Plant Simulation
11. Customize the Teamcenter Wizard
12. Import a BOM, BOP, and BOE from Teamcenter to Plant Simulation
13. Store Plant Simulation reports into Teamcenter
14. Install Plant Simulation Teamcenter interface
15. Configure Plant Simulation Teamcenter interface
16. Assessment: Use the Plant Simulation Teamcenter interface

3 Identify virtual commissioning with Plant Simulation 8 Topics

1. Identify virtual commissioning concepts
2. Identify TIA Portal basics for Plant Simulation
3. Configure TIA Portal for Plant Simulation
4. Configure TIA Portal for Plant Simulation
5. Test TIA Portal for Plant Simulation
6. Test TIA Portal for Plant Simulation
7. Identify the VC interfaces of Plant Simulation
8. Assessment: Identify virtual commissioning with Plant Simulation

4 Perform virtual commissioning with Plant Simulation 9 Topics

1. Setup and use Plant Simulation VC with PLCSIM Advanced
2. Prepare PLCSIM Advanced for a test
3. Prepare PLCSIM Advanced for a test
4. Test the Plant Simulation PLCSIM Advanced interface
5. Test the Plant Simulation PLCSIM Advanced interface
6. Setup and use Plant Simulation VC with OPC UA
7. Prepare OPC UA for a test
8. Test the Plant Simulation OPC UA interface
9. Assessment: Perform virtual commissioning with Plant Simulation

1 Overview of manufacturing for Active Workspace (Easy Plan) 4 Topics

1. Identify Easy Plan
2. Identify basic components of Active Workspace
3. Identify Easy Plan workspaces in Active Workspace
4. Knowledge Check: Overview of Manufacturing for Active Workspace (Easy Plan)

2 Identify the training data scenarios 6 Topics

1. Identify the training data scenarios for BTO/BTS/CTO
2. Identify the training data scenarios for ETO
3. Identify the contents of various Easy Plan work packages
4. Demo: Examine Easy Plan workspaces and work packages
5. Lab: Examine Easy Plan workspaces and work packages
6. Knowledge Check: Use the basic Active Workspace environment

3 Use the basic Active Workspace environment 11 Topics

1. Identify Active Workspace fundamentals
2. Identify basic objects in Active Workspace
3. Demo: Examine Active Workspace basics for manufacturing
4. Lab: Examine Active Workspace basics for manufacturing
5. Access Teamcenter data in Active Workspace
6. Demo: View object relations
7. Lab: View object relations
8. Identify how a structure can be configured
9. Demo: View a product structure
10. Lab: View a product structure
11. Knowledge Check: Use the basic Active Workspace environment

4 Assessment: Begin working with Active Workspace (for Easy Plan) 1 Topic

1. Assessment: Begin working with Active Workspace (for Easy Plan)

1 Identify MBOM management in Easy Plan 7 Topics

1. Demo: Create a work package for MBOM Management
2. Lab: Create a work package for MBOM Management
3. Demo: Search and create a favorite for a work package
4. Lab: Search and create a favorite for a work package
5. Demo: Navigate the EBOM structure
6. Lab: Navigate the EBOM structure
7. Knowledge Check: Identify MBOM management in Easy Plan

2 View the EBOM in the 3D viewer 9 Topics

1. Demo: Visualize and select parts in the EBOM in the structure and Viewer
2. Lab: Visualize and select parts in the EBOM in the structure and Viewer
3. Demo: Create measurements and quick measurements in the 3D Viewer
4. Lab: Create measurements and quick measurements in the 3D Viewer
5. Demo: Create a cross section in the Viewer
6. Lab: Create a cross section in the Viewer
7. Demo: Use a proximity and volume filter
8. Lab: Use a proximity and volume filter
9. Knowledge Check: View the EBOM in the 3D viewer

3 Manage a manufacturing part list (MBOM) (part1) 7 Topics

1. Demo: Create manufacturing assemblies in the MBOM
2. Lab: Create manufacturing assemblies in the MBOM
3. Demo: Add EBOM parts to the MBOM
4. Lab: Add EBOM parts to the MBOM
5. Demo: Align an EBOM and a MBOM
6. Lab: Align an EBOM and a MBOM
7. Knowledge Check: Manage a manufacturing part list (MBOM)(part 1)

4 Manage a manufacturing part list (MBOM) (part 2) 5 Topics

1. Demo: Remove and move allocated parts in the MBOM
2. Lab: Remove and move allocated parts in the MBOM
3. Demo: Create MBOM specific parts and modify the quantity of an allocated part
4. Lab: Create MBOM specific parts and modify the quantity of an allocated part
5. Knowledge Manage a manufacturing part list (MBOM)(part 2)

5 Release and revise MBOM assemblies 6 Topics

1. Release and revise MBOM assemblies: Manage changes
2. Demo: Submit a MBOM assembly to a workflow
3. Lab: Submit a new MBOM assembly to a workflow
4. Demo: Revise a released manufacturing assembly
5. Lab: Revise a released manufacturing assembly
6. Knowledge Check: Release and revise MBOM assemblies

6 Assessment: Manage an MBOM in Easy Plan 1 Topic

1. Assessment: Manage an MBOM in Easy Plan

1 Identify Easy Plan for BTS/BTO production process planning 6 Topics

1. Identify how to perform process planning for build to order or build to stock (BTO/BTS) use cases
2. Identify the structures and objects
3. Identify the structures in a typical work package
4. Demo: Create a work package and plant BOP
5. Lab: Create a work package and plant BOP
6. KC: Search and navigate a plant BOP structure in Easy Plan

2 Search and navigate a plant BOP structure in Easy Plan 7 Topics

1. Search and open for structures in Easy Plan
2. Demo: Search and open for structures in Easy Plan
3. Lab: Search and open for structures in Easy Plan
4. Navigate a plant BOP structure
5. Demo: Navigate a plant BOP structure
6. Lab: Navigate a plant BOP structure
7. KC: Search and navigate a plant BOP structure in Easy Plan

3 Perform functional planning with the product BOP in Easy Plan 7 Topics

1. Create a product BOP in Easy Plan
2. Demo: Create and modify a product BOP in Easy Plan
3. Lab: Create and modify a product BOP in Easy Plan
4. Find operations in the product BOP
5. Demo: Find operations in the product BOP in Easy Plan
6. Lab: Find operations in the product BOP in Easy Plan
7. KC: Perform functional planning with the product BOP

4 Perform line balancing in Easy Plan 16 Topics

1. Identify the basic line balancing interface (EP)
2. Create a production program in Easy Plan
3. Demo: Create a production program in Easy Plan
4. Lab: Create a production program in Easy Plan
5. Assign operations from a product BOP to a plant BOP in Easy Plan
6. Demo: Assign operations to a plant BOP from a product BOP in Easy Plan
7. Lab: Assign operations to a plant BOP from a product BOP in Easy Plan
8. Demo: Identify and analyze assigned operations in Easy Plan
9. Lab: Identify and analyze assigned operations in Easy Plan
10. Perform line balancing with process resources in Easy Plan
11. Demo: Perform line balancing with process resources in Easy Plan
12. Lab: Perform line balancing with process resources in Easy Plan
13. Consider shared/part-time operators and operation dependencies
14. Demo: Consider shared/part-time operators and operation dependencies
15. Lab: Consider shared/part-time operators and operation dependencies
16. KC: Perform basic line balancing

5 Perform operation planning in the plant BOP in Easy Plan 12 Topics

1. Add operations and part references to a plant BOP in Easy Plan
2. Demo: Add operations and part references to a plant BOP in Easy Plan
3. Lab: Add operations and part references to a plant BOP in Easy Plan
4. Assign time to operations from a data card in Easy Plan
5. Demo: Assign time to operations from a data card in Easy Plan
6. Lab: Assign time to operations from a data card in Easy Plan
7. Manage attachments and reference documents
8. Demo: Manage attachments and reference documents in Easy Plan
9. Lab: Manage attachments and reference documents in Easy Plan
10. Demo: Rebalance the manufacturing line in Easy Plan
11. Lab: Rebalance the manufacturing line in Easy Plan
12. KC: Search and navigate a plant BOP structure

6 Work with the BOE in Easy Plan 7 Topics

1. Add a BOE and resources to a work package in Easy Plan
2. Demo: Add a BOE and resources to a work package in Easy Plan
3. Lab: Add a BOE and resources to a work package in Easy Plan
4. Assign classified resources in Easy Plan
5. Demo: Assign classified resources in Easy Plan
6. Lab: Assign classified resources in Easy Plan
7. KC: Work with the BOE in Easy Plan

7 Author work instructions in Easy Plan 9 Topics

1. Add textual work instructions in Easy Plan
2. Demo: Add textual work instructions in Easy Plan
3. Lab: Add textual work instructions in Easy Plan
4. Navigate the 3D viewer and take snapshots in Easy Plan
5. Demo: Navigate the 3D viewer and take snapshots in Easy Plan
6. Lab: Navigate the 3D viewer and take snapshots in Easy Plan
7. View work instructions created in Easy Plan in EWI
8. Lab: View work instructions created in Easy Plan in EWI
9. KC: Author work instructions in Easy Plan

8 Assessment: Use Easy Plan to perform production process planning for BTO/BTS 1 Topic

1. Assessment: Use Easy Plan to perform production process planning for BTO/BTS

1 Identify Easy Plan for ETO production process planning 5 Topics

1. Identify Easy Plan for ETO production process planning
2. Get started with Easy Plan ETO process planning
3. Demo: Create an ETO work package and add BOMs
4. Lab: Create an ETO work package and add BOMs
5. Knowledge Check: Identify Easy Plan for ETO production process planning

2 Work with the BOE in Easy Plan (ETO) 5 Topics

1. Create a BOE and add structure to it (ETO)
2. Demo: Create a BOE and add structure to it (ETO)
3. Lab: Create a BOE and add structure to it (ETO)
4. Assign classified resources (ETO)
5. Knowledge Check: Work with the BOE in Easy Plan (ETO)

3 Perform a classic BOP breakdown (Process planning) 6 Topics

1. Create a BOP structure
2. Demo: Create and open a BOP structure
3. Lab: Create and open a BOP structure
4. Demo: Attach an image file to a process
5. Lab: Attach an image file to a process
6. Knowledge Check: Perform a classic BOP breakdown (Process planning)

4 Perform assembly planning (ETO) 4 Topics

1. Perform assembly planning (ETO)
2. Demo: Add operations to detail a process
3. Lab: Add operations to detail a process
4. Knowledge Check: Perform operation planning (ETO)

5 Author work instructions in Easy Plan (ETO) 12 Topics

1. Add textual work instructions (ETO)
2. Demo: Add textual work instructions (ETO)
3. Lab: Add textual work instructions (ETO)
4. Create and clone operations on the work instructions page (ETO)
5. Demo: Create and use operations on the work instructions page (ETO)
6. Lab: Create and use operations on the work instructions page (ETO)
7. Navigate the 3D viewer and take snapshots for work instructions (ETO)
8. Demo: Navigate the 3D viewer and take snapshots for work instructions (ETO)
9. Lab: Navigate the 3D viewer and take snapshots for work instructions (ETO)
10. Demo: Create additional work instructions (ETO)
11. Lab: Create additional work instructions (ETO)
12. Knowledge Check: Author work instructions in Easy Plan (ETO)

6 Allocate objects to process/operations (ETO) 4 Topics

1. Identify what objects can be allocated to the BOP
2. Demo: Allocate documents to process/operations (ETO)
3. Lab: Allocate documents to process/operations (ETO)
4. Knowledge Check: Allocate, parts, resources, and documents to process/operations (ETO)

7 Release and revise processes and operations (ETO) 7 Topics

1. Examine BOP effectivity (ETO)
2. Demo: Examine BOP effectivity (ETO)
3. Lab: Examine BOP effectivity (ETO)
4. Release and revise a portion of BOP (ETO)
5. Demo: Release processes/operations (ETO)
6. Lab: Release processes/operations (ETO)
7. Knowledge Check: Release and revise operations (ETO)

8 View work instructions in EWI (ETO) 3 Topics

1. View work instructions in EWI (ETO)
2. Lab: View work instructions in EWI (ETO)
3. Knowledge Check: Create work instructions

9 Assessment: Use Easy Plan to perform production process planning for ETO 1 Topic

1. Assessment: Use Easy Plan to perform production process planning for ETO

1 Identify the basics of Process Simulate robot controllers and off-line programming 5 Topics

1. Identify off-line programming
2. Identify robot models
3. Identify motion planning (MOP, RCS, and RRS basics)
4. Examine MOP, RRS, and ESRC
5. Knowledge Check: Configure robot controller software for specific robots

2 Configure robot controller software (RCS) for specific robot manufacturers 14 Topics

1. Set up the RCS (part 1)
2. Lab: ABB — Setup the RCS (Discussion Only)
3. Lab: Cloos — Setup the RCS (Discussion Only)
4. Lab: Comau — Setup the RCS (Discussion Only)
5. Lab: Duerr — Setup the RCS (Discussion Only)
6. Lab: Epson — Setup the RCS (Discussion Only)
7. Lab: Fanuc — Setting up the RCS (Discussion Only)
8. Lab: IGM — Setting up the RCS (Discussion Only)
9. Lab: Kawasaki — Setup the RCS (Discussion Only)
10. Lab: Kuka — Setup the RCS (Discussion Only)
11. Lab: Nachi — Setup the RCS (Discussion Only)
12. Lab: Trallfa — Setup the RCS (Discussion Only)
13. Lab: Yaskawa — Setup the RCS (Discussion Only)
14. Knowledge Check: Setup the RCS (part 1)

3 Install the robot controller (teach pendant) for specific robot manufacturers 21 Topics

1. Set up the robot controller (part 2)
2. Lab: ABB — Setup the Latest Process Simulate robot controller (discussion only)
3. Lab: Cloos — Setup the Latest Process Simulate robot controller (discussion only)
4. Lab: Comau — Setup the Latest Process Simulate robot controller (discussion only)
5. Lab: Default — Setup the Latest Process Simulate robot controller (discussion only)
6. Lab: Denso — Setup the Latest Process Simulate robot controller (discussion only)
7. Lab: Duerr — Setup the Latest Process Simulate robot controller (discussion only)
8. Lab: Epson — Setup the Latest Process Simulate robot controller (discussion only)
9. Lab: Fanuc — Setup the Latest Process Simulate robot controller (discussion only)
10. Lab: IGM — Setup the Latest Process Simulate robot controller (discussion only)
11. Lab: Kawasaki — Setup the Latest Process Simulate robot controller (discussion only)
12. Lab: Kuka — Setup the Latest Process Simulate robot controller (discussion only)
13. Lab: Nachi — Setup the Latest Process Simulate robot controller (discussion only)
14. Lab: NC — Setup the Latest Process Simulate robot controller (discussion only)
15. Lab: Panasonic — Setup the Latest Process Simulate robot controller (discussion only)
16. Lab: Reis — Setup the Latest Process Simulate robot controller (discussion only)
17. Lab: Staubli — Setup the Latest Process Simulate robot controller (discussion only)
18. Lab: Trallfa — Setup the Latest Process Simulate robot controller (discussion only)
19. Lab: Universal — Setup the Latest Process Simulate robot controller (discussion only)
20. Lab: Yaskawa — Setup the Latest Process Simulate robot controller (discussion only)
21. Knowledge Check: Setup the robot controller (part 2)

4 Setup the RRS.XML file for various robot manufacturers 21 Topics

1. Set up the RRS.XML file and more (part 3)
2. Lab: ABB — Prepare to setup the RRS (discussion only)
3. Lab: Cloos — Prepare to setup the RRS (discussion only)
4. Lab: Comau — Prepare to setup the RRS (discussion only)
5. Lab: Default — Prepare to setup the RRS (discussion only)
6. Lab: Denso — Prepare to setup the RRS (discussion only)
7. Lab: Duerr — Prepare to setup the RRS (discussion only)
8. Lab: Epson — Prepare to setup the RRS (discussion only)
9. Lab: Fanuc — Prepare to setup the RRS (discussion only)
10. Lab: IGM — Prepare to setup the RRS (discussion only)
11. Lab: Kawasaki — Prepare to setup the RRS (discussion only)
12. Lab: Kuka — Prepare to setup the RRS (discussion only)
13. Lab: Nachi — Prepare to setup the RRS (discussion only)
14. Lab: NC — Prepare to setup the RRS (discussion only)
15. Lab: Panasanic — Prepare to setup the RRS (discussion only)
16. Lab: Reis — Prepare to setup the RRS (discussion only)
17. Lab: Staubli — Prepare to setup the RRS (discussion only)
18. Lab: Tralfa — Prepare to setup the RRS (discussion only)
19. Lab: Universal — Prepare to setup the RRS (discussion only)
20. Lab: Yaskawa — Prepare to setup the RRS (discussion only)
21. Knowledge Check: Setup the RRS.XML file and more (part 3)

5 Identify the process to program a robot with Process Simulate 4 Topics

1. Understand the OLP process
2. Examine OLP in process design
3. Prepare studies
4. Knowledge Check: Identify the process to program a robot with Process Simulate

6 Apply robot configurations and create default robot programs 19 Topics

1. Examine basic motion attributes (default controller)
2. Demo: Set up the macro folder
3. Lab: Set up the macro folder
4. Demo: Set up some basic robotic operations
5. Lab: Set up some basic robotic operations
6. Demo: View simulation differences
7. Lab: View simulation differences
8. Select a robotic configuration
9. Demo: Viewing and setting robot configurations
10. Lab: Viewing and setting robot configurations
11. Identify the Robot Viewer
12. Demo: Use the Robot Viewer
13. Lab: Use the Robot Viewer
14. Create robot programs (default controller)
15. Demo: Create a robot program and using default signals (review)
16. Lab: Create a robot program and using default signals (review)
17. Demo: Create an Excel spreadsheet of a path (review)
18. Lab: Create an Excel spreadsheet of a path (review)
19. Knowledge Check: Apply robot configurations and create default robot programs

7 Identify and select a robot controller 7 Topics

1. Identify Process Simulate OLP basics
2. Setup a basic study for OLP
3. Lab: Setup a basic study for OLP
4. Select a robot controller
5. Demo: Select a robot controller
6. Lab: Select a robot controller
7. Knowledge Check: Identify and select a robot controller

8 Setup the robot controller 21 Topics

1. Setup the robot controller
2. Demo: ABB — Setup the robot controller
3. Lab: ABB — Setup the robot controller
4. Lab: Cloos — Setup the robot controller
5. Lab: Comau — Setup the robot controller
6. Lab: Denso — Setup the robot controller
7. Lab: Duerr — Setup the robot controller
8. Lab: Epson — Setup the robot controller
9. Lab: Fanuc — Setup the robot controller
10. Lab: IGM — Setup the robot controller
11. Lab: Kawasaki — Setup the robot controller
12. Lab: Kuka — Setup the robot controller
13. Lab: Nachi — Setup the robot controller
14. Lab: NC — Setup the robot controller
15. Lab: Panasonic — Setup the robot controller
16. Lab: Reis — Setup the robot controller
17. Lab: Staubli — Setup the robot controller
18. Lab: Trallfa — Setup the robot controller
19. Lab: Universal — Setup the robot controller
20. Lab: Yaskawa — Setup the robot controller
21. Knowledge Check: Setup the robot controller

9 Manage and test the RCS connection 11 Topics

1. Test the RCS connection and fixing setup problems
2. Demo: Test the RCS connection
3. Lab: Test the RCS connection
4. Demo: Use the RCS shell
5. Lab: Use the RCS shell
6. Demo: Use the RCS logs
7. Lab: Use the RCS logs
8. Manage the RCS
9. Demo: Manage the RCS
10. Lab: Manage the RCS
11. Knowledge Check: Manage and test the RCS connection

10 Setup robot controller specific frames 24 Topics

1. Identify methods to define TCPF positions for a robot controller
2. Demo: Use the Robot Toolbox to define TCPF positions
3. Lab: Use the Robot Toolbox to define TCPF positions
4. Setup robot controller specific frames
5. Demo: ABB — Setup Tool and base data
6. Lab: ABB — Setup Tool and base data
7. Lab: Cloos — Setup Tool and base data
8. Lab: Comau — Setup Tool and base data
9. Lab: Denso — Setup Tool and base data
10. Lab: Duerr — Setup Tool and base data
11. Lab: Epson — Setup Tool and base data
12. Lab: Fanuc — Setup Tool and base data
13. Lab: IGM — Setup Tool and base data
14. Lab: Kawasaki — Setup Tool and base data
15. Lab: Kuka — Setup Tool and base data
16. Lab: Nachi — Setup Tool and base data
17. Lab: NC — Setup Tool and base data
18. Lab: Panasonic — Setup Tool and base data
19. Lab: Reis — Setup Tool and base data
20. Lab: Staubli — Setup Tool and base data
21. Lab: Trallfa — Setup Tool and base data
22. Lab: Universal — Setup Tool and base data
23. Lab: Yaskawa — Setup Tool and base data
24. Knowledge Check: Setup robot controller specific frames

11 Set controller specific motion attributes 21 Topics

1. Set controller specific motion attributes
2. Demo: ABB — Identify robot specific Teach Pendant motion attributes
3. Lab: ABB — Identify robot specific Teach Pendant motion attributes
4. Lab: Cloos — Identify robot specific Teach Pendant motion attributes
5. Lab: Comau — Identify robot specific Teach Pendant motion attributes
6. Lab: Denso — Identify robot specific Teach Pendant motion attributes
7. Lab: Duerr — Identify robot specific Teach Pendant motion attributes
8. Lab: Epson — Identify robot specific Teach Pendant motion attributes
9. Lab: Fanuc — Identify robot specific Teach Pendant motion attributes
10. Lab: IGM — Identify robot specific Teach Pendant motion attributes
11. Lab: Kawasaki — Identify robot specific Teach Pendant motion attributes
12. Lab: Kuka — Identify robot specific Teach Pendant motion attributes
13. Lab: Nachi — Identify robot specific Teach Pendant motion attributes
14. Lab: NC — Identify robot specific Teach Pendant motion attributes
15. Lab: Panasonic — Identify robot specific Teach Pendant motion attributes
16. Lab: Reiss — Identify robot specific Teach Pendant motion attributes
17. Lab: Staubli — Identify robot specific Teach Pendant motion attributes
18. Lab: Trallfa — Identify robot specific Teach Pendant motion attributes
19. Lab: Universal — Identify robot specific Teach Pendant motion attributes
20. Lab: Yaskawa — Identify robot specific Teach Pendant motion attributes
21. Knowledge Check: Set controller specific motion attributes

12 Create robot programs and assign robotic configurations 7 Topics

1. Create robot programs
2. Demo: Create a robot program and using default signals (review)
3. Lab: Create a robot program and using default signals (review)
4. Simulate and assign robot configurations
5. Demo: Simulate and assign robot configurations
6. Lab: Simulate and assign robot configurations
7. Knowledge Check: Create robot programs and assign robotic configurations

13 Download robot programs 9 Topics

1. Identify program templates for downloading
2. Demo: Create a new program template
3. Lab: Create a new program template
4. Demo: Select a program template
5. Lab: Select a program template
6. Download a process
7. Demo: Download a process
8. Lab: Download a process
9. Knowledge Check: Download robot programs

14 Examine downloaded programs and upload programs 20 Topics

1. Examine output files
2. Lab: ABB — Examine a PRG file
3. Lab: Cloos — Examine a PKT file
4. Lab: Comau — Examine a PDL file
5. Lab: Denso — Examine a file
6. Lab: Duerr — Examine a TIS file
7. Lab: Epson — Examine a PRG file
8. Lab: Fanuc — Examine a LS file
9. Lab: IGM — Examine a IPA file
10. Lab: Kawasaki — Examine a PG file
11. Lab: Kuka — Examine a SRC file
12. Lab: Nachi — Examine a -A file
13. Lab: NC — Examine a SI file
14. Lab: Panasonic — Examine a file
15. Lab: Reis — Examine a SRC file
16. Lab: Trallfa — Examine a RT3 file
17. Lab: Universal — Examine a PKT file
18. Lab: Yaskawa — Examine a JBI file
19. Perform direct process upload
20. Knowledge Check: Examine downloaded programs and upload programs

15 Add ESRC OLP commands to robot programs 15 Topics

1. Identify standard OLP commands
2. Demo: Identify and use basic OLP commands
3. Lab: Identify and use a basic OLP commands
4. Examine free text standard commands
5. Demo: Enter basic OLP commands as free text
6. Lab: Enter basic OLP commands as free text
7. Define robot specific signals
8. Send and wait for robot specific signals
9. Demo: Add Digital Input and Digital Output OLP commands to locations
10. Lab: Add Digital Input and Digital Output OLP commands to locations
11. Examine more controller specific OLP commands
12. Identify the Robot Program Viewer
13. Demo: Use the Robot Program Viewer
14. Lab: Use the Robot Program Viewer
15. Knowledge Check: Add ESRC OLP commands to robot programs

16 Calibrate robot programs 6 Topics

1. Identify the robot program calibration process
2. Perform robot to part calibration
3. Lab: Create a calibration set
4. Demo: Use a calibration set
5. Lab: Use a calibration set
6. Knowledge Check: Calibrate robot programs

17 Assessment: Use Process Simulate robotic specific controllers for off-line programming (OLP) (PS on eMS) 1 Topic

1. Assessment: Use Process Simulate robotic specific controllers for off-line programming (OLP) (PS on eMS)

1 Identify the file to define OLP commands for robot controllers 6 Topics

1. Identify the process to customize robot controllers
2. Identify the custom OLP commands XML file
3. Identify the robotic parameters section of the file
4. Identify the OLP commands section of the file
5. Identify the OLP dialogs section of the file
6. Knowledge Check: Identify the file to define OLP commands for robot controllers

2 Identify examples of OLP command controller customization 22 Topics

1. Identify a signal example of OLP command controller customization
2. Setup robot controller specific frames
3. Lab: ABB — Create a custom command to send and wait for signals
4. Lab: Comau — Create a custom command to send and wait for signals
5. Lab: Cloos — Create a custom command to send and wait for signals
6. Lab: Denso — Create a custom command to send and wait for signals
7. Lab: Duerr — Create a custom command to send and wait for signals
8. Epson Lab: Comau — Create a custom command to send and wait for signals
9. Lab: Fanuc — Create a custom command to send and wait for signals
10. Lab: IGM — Create a custom command to send and wait for signals
11. Lab: Kawasaki — Create a custom command to send and wait for signals
12. Lab: Kuka — Create a custom command to send and wait for signals
13. Lab: Nachi — Create a custom command to send and wait for signals
14. Lab: NC — Create a custom command to send and wait for signals
15. Lab: Panasonic — Create a custom command to send and wait for signals
16. Lab: Reis — Create a custom command to send and wait for signals
17. Lab: Staubli — Create a custom command to send and wait for signals
18. Lab: Trallfa — Create a custom command to send and wait for signals
19. Lab: Universal — Create a custom command to send and wait for signals
20. Lab: Yaskawa — Create a custom command to send and wait for signals
21. Identify an example of OLP command controller customization using macros
22. Knowledge Check: Identify examples of OLP command controller customization

3 Perform ESRC motion command customization 20 Topics

1. Identify the motion command customization file
2. Identify additional elements of motion command files
3. Identify a motion command customization example
4. Lab: ABB — Create customized motion commands
5. Lab: ABB — Use customized motion commands
6. Lab: Comau — Create customized motion commands
7. Lab: Comau — Use customized motion commands
8. Lab: Fanuc — Create customized motion commands
9. Lab: Fanuc — Use customized motion commands
10. Lab: IGM — Create customized motion commands
11. Lab: IGM — Use customized motion commands
12. Lab: Kuka — Create customized motion commands
13. Lab: Kuka — Use customized motion commands
14. Lab: Nachi — Create customized motion commands
15. Lab: Nachi — Use customized motion commands
16. Lab: NC — Create customized motion commands
17. Lab: NC — Use customized motion commands
18. Lab: Reis — Create customized motion commands
19. Lab: Reis — Use customized motion commands
20. Knowledge Check: Perform ESRC motion command customization

4 Perform robotic path template customization (part 1) 20 Topics

1. Identify the robotic path template customization file
2. Examine a path template customization example (part 1)
3. Lab: ABB — Create robotic path templates
4. Lab: ABB — Use robotic path templates
5. Lab: Cloos — Use robotic path templates
6. Lab: Comau — Create robotic path templates
7. Lab: Comau — Use robotic path templates
8. Lab: Denso — Create robotic path templates
9. Lab: Denso — Use robotic path templates
10. Lab: Duerr — Create robotic path templates
11. Lab: Duerr — Use robotic path templates
12. Lab: Epson — Create robotic path templates
13. Lab: Epson — Use robotic path templates
14. Lab: Fanuc — Create robotic path templates
15. Lab: Fanuc — Use robotic path templates
16. Lab: IGM — Create robotic path templates
17. Lab: IGM — Use robotic path templates
18. Lab: Kawasaki — Create robotic path templates
19. Lab: Kawasaki — Use robotic path templates
20. Knowledge Check: Perform robotic path template customization (part 1)

5 Perform robotic path template customization (part 2) 20 Topics

1. Lab: Kuka — Create robotic path templates
2. Lab: Kuka — Use robotic path templates
3. Lab: Nachi — Create robotic path templates
4. Lab: Nachi — Use robotic path templates
5. Lab: NC — Create robotic path templates
6. Lab: NC — Use robotic path templates
7. Lab: Panasonic — Create robotic path templates
8. Lab: Panasonic — Use robotic path templates
9. Lab: Reis — Create robotic path templates
10. Lab: Reis — Use robotic path templates
11. Lab: Staubli — Create robotic path templates
12. Lab: Staubli — Use robotic path templates
13. Lab: Trallfa — Create robotic path templates
14. Lab: Trallfa — Use robotic path templates
15. Lab: Universal — Create robotic path templates
16. Lab: Universal — Use robotic path templates
17. Lab: Yaskawa — Create robotic path templates
18. Lab: Yaskawa — Use robotic path templates
19. Identify other XML customization topics
20. Knowledge Check: Perform robotic path template customization (part 2)

6 Identify other possible ESRC customizations 5 Topics

1. Examine attributes of manufacturing features and locations
2. Lab: Examine the existing mapping file
3. Identify custom attributes in the Path Editor
4. Lab: Setup and seeing custom attributes in the Path Editor
5. Knowledge Check: Identify other possible ESRC customizations

7 Examine other advanced robotics tools and techniques 6 Topics

1. Identify the Segmentizer
2. Lab: Segmentize a robotic operation
3. Compare various methods for handling robot macros
4. Identify the process to upload from Robcad
5. Identify the Robotic Parameters Viewer
6. Knowledge Check: Examine other advanced robotics tools and techniques

8 Assessment: Perform advanced customization of Process Simulate robotic specific controllers (PS on eMS) 1 Topic

1. Assessment: Perform advanced customization of Process Simulate robotic specific controllers (PS on eMS)

1 Intosite Familiarization 11 Topics

1. Introduction to Intosite
2. Intosite Building Blocks
3. Factory Visualization and Manufacturing Information
4. Use Case: Digitalization of Brown Field Factory
5. Use Case: Plant Measurements
6. Use Cases: Ergo Study and Plant Apps
7. Demonstration: Working with Intosite Part 1
8. Demonstration: Working with Intosite Part 2
9. Demonstration: Working with Intosite Part 3
10. Intosite Summary
11. Intosite Familiarization Knowledge Check

1 Overview of Manufacturing Process Planner and Multi-BOM Manager 5 Topics

1. Overview of Teamcenter
2. Overview of Teamcenter Manufacturing Process Planner
3. Compare and contrast Multi-BOM Manager and Manufacturing Process Planner
4. Identify the training data scenario (show different models etc)
5. Knowledge Check: Overview of Manufacturing Process Planner and Multi-BOM Manager

2 Identify manufacturing structures and business use cases 8 Topics

1. Identify structure types and understand their use
2. Identify a general MPP solution
3. Identify a MPP for automotive final assembly solution
4. Identify a MPP for automotive powertrain solution
5. Identify a MPP for heavy machinery solution
6. Identify a MPP for aerospace solution
7. Identify a MPP for automotive body-in-white solution
8. Knowledge Check: Identify manufacturing structures and business use cases

3 Use the basic Teamcenter environment 12 Topics

1. Identify basic portions of Teamcenter
2. Configure the navigation pane for manufacturing
3. Configure the navigation pane for manufacturing
4. Use and modify the navigation pane
5. Use and modify the navigation pane
6. Group, revise, and copy objects
7. Create folders, an item, a dataset, and a workflow
8. Create folders, an item, a dataset, and a workflow
9. Access data in Teamcenter
10. Search the Teamcenter database
11. Search the Teamcenter database
12. Knowledge check: The basic Teamcenter environment

4 Introduction to MPP and MBM 8 Topics

1. Identify object types found in manufacturing structures
2. Navigate the Manufacturing Process Planer and Multi-BOM Manager perspectives
3. Identify and modify a manufacturing perspective
4. Identify and modify a manufacturing perspective
5. Identify basic features of the MPP and MBM graphics viewer
6. Visualize objects in the graphic viewer
7. Visualize objects in the graphic viewer
8. Knowledge Check: Introduction to MPP and MBM

5 Create and use collaboration context objects 12 Topics

1. Identify collaboration context, structure context, and configuration context objects
2. Load existing structures into MPP and MBM
3. Identify occurrences, BOM line properties and BOM line revisions
4. Creating a collaboration context and simple content
5. Creating a collaboration context and simple content
6. Work with a collaboration context
7. Work with a collaboration context
8. Create a collaboration context from another collaboration context
9. Create a collaboration context from another collaboration context
10. Begin a new process plan putting it all together
11. Begin a new process plan putting it all together
12. Knowledge Check: Create and use collaboration context objects

1 Manage engineering data (EBOM) 13 Topics

1. Identify how structures can be configured
2. Identify revision and occurrence effectivity
3. Configure structures using revision rules and effectivity
4. Configure product structure using release date
5. Configure product structure using release date
6. Configure product structure using effectivity
7. Configure structures using closure rules
8. Configure product structure using closure rules
9. Configure product structure using closure rules
10. Configure structures using Product Configurator variants
11. Identify context IDs, occurrences, and absolute occurrences
12. Identify three scenarios for creating engineering data (such as engineering BOMs)
13. Manage engineering data (EBOM) Knowledge Check

2 Author manufacturing features (BBOM) 11 Topics

1. Identify several types of manufacturing features
2. Identify several ways to create manufacturing features
3. Identify the purpose of a body BOM (BBOM) structure
4. Author datums
5. View the feature connections
6. View the feature connections
7. Manually create welds and connect to parts
8. Manage Welds
9. Search and assign manufacturing features to stations
10. Search for welds
11. Author manufacturing features (BBOM) Knowledge Check

3 Create a manufacturing part list (MBOM) (part 1) 13 Topics

1. Identify why to create a MBOM
2. Create items directly in a manufacturing BOM
3. Create a MBOM manually
4. Create a MBOM manually
5. Create a manufacturing BOM from a recipe
6. Create a MBOM from a recipe
7. Create a MBOM from a recipe
8. Create a manufacturing BOM reused assembly
9. Create a MBOM by copy/paste
10. Create a MBOM by copy/paste
11. Create a MBOM reused assembly
12. Create a MBOM reused assembly
13. Create a manufacturing part list (MBOM) (part 1) Knowledge Check

4 Create a manufacturing part list (MBOM) (part 2) 15 Topics

1. Create a manufacturing BOM by cloning
2. Create a MBOM by cloning
3. Create a MBOM by cloning
4. Create a manufacturing BOM with a utility
5. Create a MBOM with a utility
6. Create a MBOM with a utility
7. Perform structure searches
8. Perform a structure search
9. Perform a structure search
10. Perform spatial searches
11. Perform a spatial search
12. Perform a spatial search
13. Add features to the MBOM
14. Add features to the MBOM
15. Create a manufacturing part list (MBOM) (part 2) Knowledge Check

5 Validate EBOM to MBOM 8 Topics

1. Expand your understanding of ID in context and APNs
2. Understanding ID in context
3. Understanding ID in context
4. Perform an alignment check
5. Perform an EBOM MBOM accountability check
6. Perform accountability check - EBOM to MBOM
7. Perform accountability check - EBOM to MBOM
8. Validate EBOM to MBOM Knowledge Check

1 Use product BOPs 7 Topics

1. Explore optional process structures such as generic BOPs and product BOPs
2. Add process and operations to a structure
3. Add process and operations to a product BOP
4. Add process and operations to a product BOP
5. Optionally, add product to a product BOP
6. Optionally, add product to a product BOP
7. Assessment: Use product BOPs

2 Setup an initial plant BOP 6 Topics

1. Identify the contents of a plant BOP
2. Create a plant BOP using several methods
3. Examine ID-in-Context concepts and applications
4. Setup initial plant BOP
5. Setup initial plant BOP
6. Assessment: Setup an initial plant BOP

3 Sequence and optimize the plant BOP 10 Topics

1. Setup the process flow using the PERT chart
2. Configure the PERT chart
3. Assign parts to the plant BOP from either an MBOM or product BOP
4. Assign manufacturing features to the plant BOP
5. Examine BOP ID-in-context and appearance path node concepts
6. Sequence the process areas
7. Sequence the process areas
8. Sequence, add operations, and associate parts
9. Sequence, add operations, and associate parts
10. Assessment: Sequence and optimize the plant BOP

4 Perform operation time analysis 8 Topics

1. Use the Gantt chart view to do time planning
2. Use the Process Gantt view
3. Use the Process Gantt view
4. Use the Time view to assign various classifications of time to operations and create reports
5. Assign time to operations and activities
6. Work with the Time view
7. Work with the Time view
8. Assessment: Perform operation time analysis

5 Balance operator workloads (EP) 6 Topics

1. Identify the basic line balancing interface (EP)
2. Create a production program (EP)
3. Create a production program (EP)
4. Perform line balancing (EP)
5. Perform line balancing (EP)
6. Assessment: Balance operator workloads (EP)

6 Automatically configure the process structure 5 Topics

1. Identify methods to configure the process structure
2. Automatically configure the process structure with classic variants
3. Automatically configure the process structure with revision rules and classic variants
4. Automatically configure the process structure with revision rules and classic variants
5. Assessment: Automatically configure the process structure

7 Manage dynamic and filtered IPAs 7 Topics

1. Identify IPAs
2. Manage dynamic IPAs
3. Create and use dynamic IPAs
4. Create and use dynamic IPAs
5. Manage filtered IPAs
6. Manage IPA positions using station reference frames
7. Assessment: Manage dynamic and filtered IPAs

8 Validate MBOM to plant BOP 4 Topics

1. Perform accountability checks on the process structure
2. Validate product added to the plant BOP
3. Validate product added to the plant BOP
4. Assessment: Validate MBOM to plant BOP

9 Manage and validate studies 4 Topics

1. Search for studies with the study manager
2. Create and open studies with study manager
3. Lab: Manage studies
4. Assessment: Manage and validate studies

10 Perform alternative planning 4 Topics

1. Create an alternative plan
2. Perform alternative planning
3. Perform alternative planning
4. Assessment: Perform alternative planning

1 Access libraries of resources in Teamcenter 7 Topics

1. Identify basic classification concepts
2. Search and view the classification hierarchy
3. Search the classification hierarchy Lab
4. Search the classification hierarchy Lab
5. Add a classified resource to the BOE Lab
6. Add a classified resource to the BOE Lab
7. Assessment: Access libraries of resources in Teamcenter

2 Manage plant resources (BOE) 9 Topics

1. Identify the content of the BOE structure
2. Identify and position content of the BOE
3. Associate the plant to the process structure
4. Managing resources and end items
5. Add station and assign operations Lab
6. Add station and assign operations Lab
7. Position a worker in the layout and assign to an operation Lab
8. Position a worker in the layout and assign to an operation Lab
9. Assessment: Manage plant resources (BOE)

3 Utilize workers and robots in the plant 6 Topics

1. Multi-Worker planning per Station
2. Assign components and workarea Lab
3. Assign components and workarea Lab
4. Apply an end item in the plant structure Lab
5. Apply an end item in the plant structure Lab
6. Assessment: Utilize workers and robots in the plant

1 Identify the component BOM (CBOM) 6 Topics

1. Perform part manufacturing planning in Teamcenter (part 1)
2. Perform part manufacturing planning in Teamcenter (part 2)
3. Identify the Component Bill of Materials (CBOM)
4. Lab: Identify the CBOM content
5. Lab: Create a CBOM
6. Knowledge Check: Identify the component BOM (CBOM)

2 Identify the component BOP (CBOP) 12 Topics

1. Identify the Component Bill of Process (CBOP)
2. Lab: Create a CBOP
3. Sequence the Component Bill of Process (CBOP)
4. Lab: View the sequence in PERT and Gantt
5. Link content from the CBOM to objects in the CBOP
6. Lab: Link parts from the CBOM to operations in the CBOP
7. Add detailed time information to a work package
8. Lab: Add detailed time information to a work package
9. Search for tool assemblies in the Manufacturing Resource Library (MRL)
10. Lab: Search for tool assemblies in the Manufacturing Resource Library (MRL)
11. Identify textual work instructions
12. Knowledge Check: Identify the component BOP (CBOP)

3 Identify the component BOE (CBOE) 4 Topics

1. Identify the Component Bill of Equipment (CBOE)
2. Lab: Create a CBOE
3. Lab: Add machines to a CBOP from a CBOE
4. Knowledge Check: Identify the component BOE (CBOE)

4 Identify the Manufacturing Resource Library (MRL) in Teamcenter 9 Topics

1. Identify Manufacturing Resource Library (MRL)
2. Create a tool assembly
3. Lab: Create a new tool assembly in Manufacturing Resource Library (MRL)
4. Perform a guided component search and set propagation start point
5. Lab: Add components to a tool assembly using Guided Component Search (GCS)
6. Use Graphics Builder to prepare components and assemblies for NXCAM
7. Lab: Finish a Tool Assembly so that it can be used in NX CAM
8. Identify GCS information on a component
9. Knowledge Check: Identify the Manufacturing Resource Library (MRL) in Teamcenter

5 Identify the connection to NXCAM 5 Topics

1. Identify the NXCAM connection to Teamcenter
2. Lab: Open an operation with NX CAM
3. Lab: Add tools and machines in NX using MRL
4. Lab: Create/Save cutter paths and more to Teamcenter
5. Knowledge Check: Identify the connection to NXCAM

6 Assessment: Perform part manufacturing planning specific tasks in MPP 1 Topic

1. Assessment: Perform part manufacturing planning specific tasks in MPP

1 Create reports 7 Topics

1. Create standard reports from the BOP structure
2. Create standard reports from the BOP structure
3. Lab: Create standard reports from the BOP structure
4. Perform visual reporting and 3D comparison in the graphics viewer
5. Create a visual report and 3D comparison
6. Lab: Create a visual report and 3D comparison
7. Assessment: Create reports

2 Add product views to operations 9 Topics

1. Create 3D markups
2. Create images, callouts, 2D markups, and measurements
3. Reposition objects using several techniques
4. Create, configure, and manage product views
5. Visualizing and capturing product views
6. Lab: Visualizing and capturing product views
7. Add product views to operations
8. Lab: Add product views to operations
9. Assessment: Add product views to operations

3 Manage reference documents and work instructions 6 Topics

1. Add pictures and Microsoft Word datasets to operations
2. Add document objects containing Microsoft Word files to operations
3. Add textual work instructions to operations
4. Add work instruction information
5. Lab: Add work instruction information
6. Assessment: Manage reference documents and work instructions

4 Approve and release a process plan 5 Topics

1. Release the whole structure with one workflow
2. Baseline and release several objects at once
3. Status a station in the plant BOP
4. Lab: Status a station in the plant BOP
5. Assessment: Approve and release a process plan

5 Manage manufacturing changes 5 Topics

1. Manage manufacturing changes
2. Track changes and automatic revising
3. Manage manufacturing change
4. Lab: Manage manufacturing change
5. Assessment: Manage manufacturing changes

6 View work instructions 4 Topics

1. Identify techniques to view work instructions
2. Lab: View work instructions in EWI
3. Lab: Create a simple 3D PDF
4. Assessment: View work instructions

1 Identify additional MPP tools 8 Topics

1. Clone process and plant structures
2. Use a Custom Process View
3. Work with a BOP in a Custom Process View
4. Lab: Work with a BOP in a Custom Process View
5. Manage test cases
6. Manage test cases
7. Lab: Manage test cases
8. Assessment: Identify additional MPP tools

2 Identify selected super user tools 10 Topics

1. Add a resource to classification
2. Classify resources and more
3. Lab: Classify resources and more
4. Convert a classic BOP to a plant BOP
5. Lab: Convert a classic BOP to a plant BOP
6. Repair broken links
7. Lab: Repair broken links
8. Create, define, apply product configurator variants
9. Identify net effectivity
10. Assessment: Identify selected super user tools

3 Identify integrations to other manufacturing systems 5 Topics

1. Connect with enterprise resource planning (ERP) systems
2. Identify Teamcenter-MES (Simatic IT) closed-loop manufacturing
3. Create an execution plan for MES
4. Lab: Exchange data with a MES
5. Assessment: Identify integrations to other manufacturing systems

4 Identify classic tools and their replacements 14 Topics

1. Identify classic tools and their replacements
2. Explore process structures such as classic BOPs
3. Lab: Create a simple classic BOP
4. Manage classic IPAs
5. Lab: Create a classic IPA
6. Review how to create, define, apply classic variants
7. Identify the basic line balancing interface (MPP)
8. Balance operator workloads (MPP)
9. Setup a production program (MPP)
10. Create a production program (MPP)
11. Lab: Create a production program (MPP)
12. Perform line balancing (MPP)
13. Lab: Perform line balancing (MPP)
14. Assessment: Identify classic tools and their replacements

1 Overview of Manufacturing Process Planner and Multi-BOM Manager 5 Topics

1. Overview of Teamcenter
2. Overview of Teamcenter Manufacturing Process Planner
3. Compare and contrast Multi-BOM Manager and Manufacturing Process Planner
4. Identify the training data scenario (show different models etc)
5. Knowledge Check: Overview of Manufacturing Process Planner and Multi-BOM Manager

2 Identify manufacturing structures and business use cases 8 Topics

1. Identify structure types and understand their use
2. Identify a general MPP solution
3. Identify a MPP for automotive final assembly solution
4. Identify a MPP for automotive powertrain solution
5. Identify a MPP for heavy machinery solution
6. Identify a MPP for aerospace solution
7. Identify a MPP for automotive body-in-white solution
8. Knowledge Check: Identify manufacturing structures and business use cases

3 Use the basic Teamcenter environment - 11.6 12 Topics

1. Identify basic portions of Teamcenter
2. Configure the navigation pane for manufacturing
3. Configure the navigation pane for manufacturing
4. Use and modify the navigation pane
5. Use and modify the navigation pane
6. Group, revise, and copy objects
7. Create folders, an item, a dataset, and a workflow
8. Create folders, an item, a dataset, and a workflow
9. Access data in Teamcenter
10. Search the Teamcenter database
11. Search the Teamcenter database
12. Knowledge check: The basic Teamcenter environment

4 Introduction to MPP and MBM - 11.6 8 Topics

1. Identify object types found in manufacturing structures
2. Navigate the Manufacturing Process Planer and Multi-BOM Manager perspectives
3. Identify and modify a manufacturing perspective
4. Identify and modify a manufacturing perspective
5. Identify basic features of the MPP and MBM graphics viewer
6. Visualize objects in the graphic viewer
7. Visualize objects in the graphic viewer
8. Knowledge Check: Introduction to MPP and MBM

5 Create and use collaboration context objects 12 Topics

1. Identify collaboration context, structure context, and configuration context objects
2. Load existing structures into MPP and MBM
3. Identify occurrences, BOM line properties and BOM line revisions
4. Creating a collaboration context and simple content
5. Creating a collaboration context and simple content
6. Work with a collaboration context
7. Work with a collaboration context
8. Create a collaboration context from another collaboration context
9. Create a collaboration context from another collaboration context
10. Begin a new process plan putting it all together
11. Begin a new process plan putting it all together
12. Knowledge Check: Create and use collaboration context objects

1 Manage engineering data (EBOM) - 12.3 13 Topics

1. Identify how structures can be configured
2. Identify revision and occurrence effectivity
3. Configure structures using revision rules and effectivity
4. Configure product structure using release date
5. Configure product structure using release date
6. Configure product structure using effectivity
7. Configure structures using closure rules
8. Configure product structure using closure rules
9. Configure product structure using closure rules
10. Configure structures using Product Configurator variants
11. Identify context IDs, occurrences, and absolute occurrences
12. Identify three scenarios for creating engineering data (such as engineering BOMs)
13. Manage engineering data (EBOM) Knowledge Check

2 Author manufacturing features (BBOM) - 12.3 11 Topics

1. Identify several types of manufacturing features
2. Identify several ways to create manufacturing features
3. Identify the purpose of a body BOM (BBOM) structure
4. Author datums
5. View the feature connections
6. View the feature connections
7. Manually create welds and connect to parts
8. Manage Welds
9. Search and assign manufacturing features to stations
10. Search for welds
11. Author manufacturing features (BBOM) Knowledge Check

3 Create a manufacturing part list (MBOM) (part 1) - 12.3 13 Topics

1. Identify why to create a MBOM
2. Create items directly in a manufacturing BOM
3. Create a MBOM manually
4. Create a MBOM manually
5. Create a manufacturing BOM from a recipe
6. Create a MBOM from a recipe
7. Create a MBOM from a recipe
8. Create a manufacturing BOM reused assembly
9. Create a MBOM by copy/paste
10. Create a MBOM by copy/paste
11. Create a MBOM reused assembly
12. Create a MBOM reused assembly
13. Create a manufacturing part list (MBOM) (part 1) Knowledge Check

4 Create a manufacturing part list (MBOM) (part 2) - 12.3 15 Topics

1. Create a manufacturing BOM by cloning
2. Create a MBOM by cloning
3. Create a MBOM by cloning
4. Create a manufacturing BOM with a utility
5. Create a MBOM with a utility
6. Create a MBOM with a utility
7. Perform structure searches
8. Perform a structure search
9. Perform a structure search
10. Perform spatial searches
11. Perform a spatial search
12. Perform a spatial search
13. Add features to the MBOM
14. Add features to the MBOM
15. Create a manufacturing part list (MBOM) (part 2) Knowledge Check

5 Validate EBOM to MBOM - 12.3 8 Topics

1. Expand your understanding of ID in context and APNs
2. Understanding ID in context
3. Understanding ID in context
4. Perform an alignment check
5. Perform an EBOM MBOM accountability check
6. Perform accountability check - EBOM to MBOM
7. Perform accountability check - EBOM to MBOM
8. Validate EBOM to MBOM Knowledge Check

1 Use product BOPs - 12.3 7 Topics

1. Explore optional process structures such as generic BOPs and product BOPs
2. Add process and operations to a structure
3. Add process and operations to a product BOP
4. Add process and operations to a product BOP
5. Optionally, add product to a product BOP
6. Optionally, add product to a product BOP
7. Assessment: Use product BOPs

2 Setup an initial plant BOP - 12.3 6 Topics

1. Identify the contents of a plant BOP
2. Create a plant BOP using several methods
3. Examine ID-in-Context concepts and applications
4. Setup initial plant BOP
5. Setup initial plant BOP
6. Assessment: Setup an initial plant BOP

3 Sequence and optimize the plant BOP - 12.3 10 Topics

1. Setup the process flow using the PERT chart
2. Configure the PERT chart
3. Assign parts to the plant BOP from either an MBOM or product BOP
4. Assign manufacturing features to the plant BOP
5. Examine BOP ID-in-context and appearance path node concepts
6. Sequence the process areas
7. Sequence the process areas
8. Sequence, add operations, and associate parts
9. Sequence, add operations, and associate parts
10. Assessment: Sequence and optimize the plant BOP

4 Perform operation time analysis - 12.3 8 Topics

1. Use the Gantt chart view to do time planning
2. Use the Process Gantt view
3. Use the Process Gantt view
4. Use the Time view to assign various classifications of time to operations and create reports
5. Assign time to operations and activities
6. Work with the Time view
7. Work with the Time view
8. Assessment: Perform operation time analysis

5 Automatically configure the process structure - 12.3 5 Topics

1. Identify methods to configure the process structure
2. Automatically configure the process structure with classic variants
3. Automatically configure the process structure with revision rules and classic variants
4. Automatically configure the process structure with revision rules and classic variants
5. Assessment: Automatically configure the process structure

6 Balance operator workloads (EP) - 12.3 6 Topics

1. Identify the basic line balancing interface (EP)
2. Create a production program (EP)
3. Create a production program (EP)
4. Perform line balancing (EP)
5. Perform line balancing (EP)
6. Assessment: Balance operator workloads (EP)

7 Manage dynamic and filtered IPAs - 12.3 7 Topics

1. Identify IPAs
2. Manage dynamic IPAs
3. Create and use dynamic IPAs
4. Create and use dynamic IPAs
5. Manage filtered IPAs
6. Manage IPA positions using station reference frames
7. Assessment: Manage dynamic and filtered IPAs

8 Validate MBOM to plant BOP - 12.3 4 Topics

1. Perform accountability checks on the process structure
2. Validate product added to the plant BOP
3. Validate product added to the plant BOP
4. Assessment: Validate MBOM to plant BOP

9 Manage and validate studies - 12.3 3 Topics

1. Search for studies with the study manager
2. Create and open studies with study manager
3. Assessment: Manage and validate studies

10 Perform alternative planning - 12.3 4 Topics

1. Create an alternative plan
2. Perform alternative planning
3. Perform alternative planning
4. Assessment: Perform alternative planning

1 Access libraries of resources in Teamcenter - 12.3 7 Topics

1. Identify basic classification concepts
2. Search and view the classification hierarchy
3. Search the classification hierarchy Lab
4. Search the classification hierarchy Lab
5. Add a classified resource to the BOE Lab
6. Add a classified resource to the BOE Lab
7. Assessment: Access libraries of resources in Teamcenter

2 Manage plant resources (BOE) - 12.3 9 Topics

1. Identify the content of the BOE structure
2. Identify and position content of the BOE
3. Associate the plant to the process structure
4. Managing resources and end items
5. Add station and assign operations Lab
6. Add station and assign operations Lab
7. Position a worker in the layout and assign to an operation Lab
8. Position a worker in the layout and assign to an operation Lab
9. Assessment: Manage plant resources (BOE)

3 Utilize workers and robots in the plant - 12.3 6 Topics

1. Multi-Worker planning per Station
2. Assign components and workarea Lab
3. Assign components and workarea Lab
4. Apply an end item in the plant structure Lab
5. Apply an end item in the plant structure Lab
6. Assessment: Utilize workers and robots in the plant

1 Identify the component BOM (CBOM) - 12.3 6 Topics

1. Perform part manufacturing planning in Teamcenter (part 1)
2. Perform part manufacturing planning in Teamcenter (part 2)
3. Identify the Component Bill of Materials (CBOM)
4. Lab: Identify the CBOM content
5. Lab: Create a CBOM
6. Knowledge Check: Identify the component BOM (CBOM)

2 Identify the component BOP (CBOP) - 12.3 12 Topics

1. Identify the Component Bill of Process (CBOP)
2. Lab: Create a CBOP
3. Sequence the Component Bill of Process (CBOP)
4. Lab: View the sequence in PERT and Gantt
5. Link content from the CBOM to objects in the CBOP
6. Lab: Link parts from the CBOM to operations in the CBOP
7. Add detailed time information to a work package
8. Lab: Add detailed time information to a work package
9. Search for tool assemblies in the Manufacturing Resource Library (MRL)
10. Lab:Search for tool assemblies in the Manufacturing Resource Library (MRL)
11. Identify textual work instructions
12. Knowledge Check: Identify the component BOP (CBOP)

3 Identify the component BOE (CBOE) - 12.3 4 Topics

1. Identify the Component Bill of Equipment (CBOE)
2. Lab: Create a CBOE
3. Lab: Add machines to a CBOP from a CBOE
4. Knowledge Check: Identify the component BOE (CBOE)

4 Identify the Manufacturing Resource Library (MRL) in Teamcenter - 12.3 9 Topics

1. Identify Manufacturing Resource Library (MRL)
2. Create a tool assembly
3. Lab: Create a new tool assembly in Manufacturing Resource Library (MRL)
4. Perform a guided component search and set propagation start point
5. Lab: Add components to a tool assembly using Guided Component Search (GCS)
6. Use Graphics Builder to prepare components and assemblies for NXCAM
7. Lab: Finish a Tool Assembly so that it can be used in NX CAM
8. Identify GCS information on a component
9. Knowledge Check: Identify the Manufacturing Resource Library (MRL) in Teamcenter

5 Identify the connection to NXCAM - 12.3 5 Topics

1. Identify the NXCAM connection to Teamcenter
2. Lab: Open an operation with NX CAM
3. Lab: Add tools and machines in NX using MRL
4. Lab: Create/Save cutter paths and more to Teamcenter
5. Knowledge Check: Identify the connection to NXCAM

6 Assessment: Perform part manufacturing planning specific tasks in MPP 1 Topic

1. Assessment: Perform part manufacturing planning specific tasks in MPP

1 Create reports - 12.3 7 Topics

1. Create standard reports from the BOP structure
2. Create standard reports from the BOP structure
3. Lab: Create standard reports from the BOP structure
4. Perform visual reporting and 3D comparison in the graphics viewer
5. Create a visual report and 3D comparison
6. Lab: Create a visual report and 3D comparison
7. Assessment: Create reports

2 Add product views to operations - 12.3 9 Topics

1. Create 3D markups
2. Create images, callouts, 2D markups, and measurements
3. Reposition objects using several techniques
4. Create, configure, and manage product views
5. Visualizing and capturing product views
6. Lab: Visualizing and capturing product views
7. Add product views to operations
8. Lab: Add product views to operations
9. Assessment: Add product views to operations

3 Manage reference documents and work instructions - 12.3 6 Topics

1. Add pictures and Microsoft Word datasets to operations
2. Add document objects containing Microsoft Word files to operations
3. Add textual work instructions to operations
4. Add work instruction information
5. Lab: Add work instruction information
6. Assessment: Manage reference documents and work instructions

4 Approve and release a process plan - 12.3 5 Topics

1. Release the whole structure with one workflow
2. Baseline and release several objects at once
3. Status a station in the plant BOP
4. Lab: Status a station in the plant BOP
5. Assessment: Approve and release a process plan

5 Manage manufacturing changes - 12.3 5 Topics

1. Manage manufacturing changes
2. Track changes and automatic revising
3. Manage manufacturing change
4. Lab: Manage manufacturing change
5. Assessment: Manage manufacturing changes

1 Identify additional MPP tools - 12.3 8 Topics

1. Clone process and plant structures
2. Use a Custom Process View
3. Work with a BOP in a Custom Process View
4. Lab: Work with a BOP in a Custom Process View
5. Manage test cases
6. Manage test cases
7. Lab: Manage test cases
8. Assessment: Identify additional MPP tools

2 Identify selected super user tools - 12.3 10 Topics

1. Add a resource to classification
2. Classify resources and more
3. Lab: Classify resources and more
4. Convert a classic BOP to a plant BOP
5. Lab: Convert a classic BOP to a plant BOP
6. Repair broken links
7. Lab: Repair broken links
8. Create, define, apply product configurator variants
9. Identify net effectivity
10. Assessment: Identify selected super user tools

3 Identify integrations to other manufacturing systems - 12.3 4 Topics

1. Connect with enterprise resource planning (ERP) systems
2. Identify Teamcenter-MES (Simatic IT) closed-loop manufacturing
3. Create an execution plan for MES
4. Assessment: Identify integrations to other manufacturing systems

4 Identify classic tools and their replacements - 12.3 14 Topics

1. Identify classic tools and their replacements
2. Explore process structures such as classic BOPs
3. Lab: Create a simple classic BOP
4. Manage classic IPAs
5. Lab: Create a classic IPA
6. Review how to create, define, apply classic variants
7. Identify the basic line balancing interface (MPP)
8. Balance operator workloads (MPP)
9. Setup a production program (MPP)
10. Create a production program (MPP)
11. Lab: Create a production program (MPP)
12. Perform line balancing (MPP)
13. Lab: Perform line balancing (MPP)
14. Assessment: Identify classic tools and their replacements

1 Create snapshots, markups, notes, and pictures (PS on TC) 21 Topics

1. Use Multipart appearances
2. Demo: Work with multi part appearances
3. Lab: Work with multi part appearances
4. Create and use snapshots and the Markup Editor
5. Demo: Create snapshots
6. Lab: Create snapshots
7. Demo: Create markups
8. Lab: Create markups
9. Adding text in the Graphic Viewer
10. Demo: Set the note options
11. Lab: Set the note options
12. Demo: Create notes in the Graphic Viewer
13. Lab: Create notes in the Graphic Viewer
14. Demo: Create dimensions in the Graphic Viewer
15. Lab: Create dimensions in the Graphic Viewer
16. Store pictures of the study
17. Lab: Output the Graphic Viewer to a file or printer
18. Output video and HTML files
19. Demo: Create a video and an HTML file
20. Lab: Create a video and an HTML file
21. Knowledge Check: Create snapshots, markups, text, and pictures

2 Create sections and define cables (PS on TC) 12 Topics

1. Cut sections with section planes
2. Demo: Create and move a section plane
3. Lab: Create and move a section plane
4. Demo: Identify additional section tools
5. Lab: Identify additional section tools
6. Lab: Create and move a section volume
7. Create and use basic cables
8. Demo: Create, edit, and move cables
9. Lab: Create, edit, and move cables
10. Edit cable parameters and attachments
11. Lab: Adjust cable parameters use fixed cable attachments
12. Knowledge Check: Create sections and define cables

3 Model geometry in Process Simulate (PS on TC) 11 Topics

1. Identify the process to model in Process Simulate
2. Identify modeling concepts
3. Model using solid primitives
4. Lab: Model a simple geometric table
5. Demo: Revolve 2D entities to make a solid
6. Lab: Revolve 2D entities to make a solid
7. Demo: Extrude 2D entities to make a solid
8. Lab: Extrude 2D entities to make a solid
9. Demo: Model a portion of a simple robot
10. Lab: Model a portion of a simple robot
11. Knowledge Check: Model geometry in Process Simulate

4 Define basic kinematics in Process Simulate (PS on TC) 13 Topics

1. Identify kinematics background concepts
2. Demo: Identify simple kinematics definition and usage
3. Lab: Identify simple kinematics definition and usage
4. Demo: Define simple kinematics (part 1)
5. Lab: Define simple kinematics (part 1)
6. Demo: Define simple kinematics (part 2)
7. Lab: Define simple kinematics (part 2)
8. Summarize kinematics basics
9. Demo: Add joints to a simple object
10. Lab: Add joints to a simple object
11. Demo: Define leading joints and follow factors (robot tool)
12. Lab: Define leading joints and follow factors (robot tool)
13. Knowledge Check: Define basic kinematics in Process Simulate

5 Define basic kinematic cranks and robotic tools (PS on TC) 25 Topics

1. Identify kinematic cranks
2. Demo: Define kinematic looping demo
3. Lab: Define kinematic looping demo
4. Demo: Define kinematic looping
5. Lab: Define kinematic looping
6. Define branching kinematic branching, speed, and acceleration
7. Demo: Define a kinematic robot tool (part 1)
8. Lab: Define a kinematic robot tool (part 1)
9. Demo: Define a kinematic robot tool (part 2)
10. Lab: Define a kinematic robot tool (part 2)
11. Demo: Define joint speed and acceleration
12. Lab: Define joint speed and acceleration
13. Define an object as a tool
14. Lab: Spot — Define an object as a pneumatic spot-weld gun
15. Demo: Spot — Define an object as a servo spot-weld gun
16. Lab: Spot — Define an object as a servo spot-weld gun
17. Lab: Drill/Rivet — Define an object as a drill/rivet gun
18. Lab: Material handling — Define an object as a gripper
19. Demo: Arc — Define an object as an arc-weld torch
20. Lab: Arc — Define an object as an arc-weld torch
21. Demo: Paint — Define an object as a paint gun
22. Lab: Paint — Define an object as a paint gun
23. Demo: Debur — Defining an object as a deburring tool
24. Lab: Debur — Defining an object as a deburring tool
25. Knowledge Check: Define basic kinematic cranks and robotic tools

6 Define basic robot kinematics (PS on TC) 12 Topics

1. Examine inverse kinematics
2. Demo: Add kinematics to a robot model
3. Lab: Add kinematics to a robot model
4. Demo: Using direct kinematics to move the robot
5. Lab: Use direct kinematics to move the robot
6. Create and use inverse kinematics devices
7. Demo: Add a tool frame
8. Lab: Add a tool frame
9. Demo: Use inverse kinematics to move the robot
10. Lab: Use inverse kinematics to move the robot
11. Lab: Identify other inverse kinematics examples
12. Knowledge Check: Define basic robot kinematics

7 Define advanced kinematics, rails, gantries, and positioners (PS on TC) 12 Topics

1. Define kinematics for rails, gantries, and positioners (external axis)
2. Demo: Create simple geometry and kinematics for a robotic rail
3. Lab: Create simple geometry and kinematics for a robotic rail
4. Lab: Identify other slider cranks including offset slider
5. Define slot joints
6. Demo: Create slot joints
7. Lab: Create slot joints
8. Define joints with variable limits
9. Demo: Understand variable joint limits
10. Lab: Understand variable joint limits
11. Lab: Define the variable limits
12. Knowledge Check: Define advanced kinematics, rails, gantries, and positioners

8 Define advanced kinematic functions, compound equipment, and motion parameter files (PS on TC) 9 Topics

1. Examine techniques to create more complex kinematic functions
2. Lab: Implement joint logic with functions
3. Demo: Define kinematics following a surface
4. Lab: Define kinematics following a surface
5. Demo: Examine a train joint
6. Lab: Examine a train joint
7. Lab: Examine a cam joint
8. Lab: Setup compound equipment
9. Identify advanced kinematic definitions using the MotionParameters.e file

9 Assessment: Define Process Simulate study data, geometry, and kinematics (PS on TC) 1 Topic

1. Assessment: Define Process Simulate study data, geometry, and kinematics (PS on TC)

1 Identify event-based simulation basics for automation 25 Topics

1. Identify event-based robotics
2. Demo: Setup the robot macro folder
3. Lab: Setup the robot macro folder
4. Simulating and triggering events
5. Demo: Identify the Simulation Panel
6. Lab: Identify the Simulation Panel
7. Demo: Test the logic of a robotic workcell in "manual mode"
8. Lab: Test the logic of a robotic workcell in "manual mode"
9. Introduction to signals
10. Identify the Signal Viewer
11. Demo: Create a new signal
12. Lab: Create a new signal
13. Identify CEE operational transitions
14. Demo: Identify existing transition conditions
15. Lab: Identify existing transition conditions
16. Identify Process Simulate sensors
17. Demo: Identify existing sensors
18. Lab: Identify existing sensors
19. View logic blocks and smart components
20. Demo: Identify logic block content and its connections
21. Lab: Identify logic block content and its connections
22. Identify the Modules Viewer
23. Demo: Identify a module and its content
24. Lab: Identify a module and its content
25. Knowledge Check: Identify event-based simulation basics for automation

2 Establish part appearances and the material flow 12 Topics

1. Use appearances in event-based studies
2. Demo: Open an event-based study
3. Lab: Open an event-based study
4. More on working with studies
5. Use part appearances
6. Identify basic object flow techniques
7. Demo: Generate part appearances with a non-sim operation
8. Lab: Generate part appearances with a non-sim operation
9. Demo: Generate part appearances with an object flow operation
10. Lab: Generate part appearances with an object flow operation
11. Quick tips to part appearance and material flow problems
12. Knowledge Check: Establish part appearances and the material flow

3 Define and simulate sensors and conveyors (part 1) 13 Topics

1. Identify sensor types
2. Create photoelectric sensors (light sensors)
3. Demo: Setup the basic event-based study
4. Lab: Setup the basic event-based study
5. Demo: Create and use light sensors
6. Lab: Create and use light sensors
7. Create proximity sensors
8. Demo: Create and use proximity sensors
9. Lab: Create and use proximity sensors
10. Identify conveyors and skids
11. Demo: Create a conveyor using a curve
12. Lab: Create a conveyor using a curve
13. Knowledge Check: Define and simulate sensors and conveyors (part 1)

4 Define and simulate sensors and conveyors (part 2) 14 Topics

1. Configure a conveyor and conveyable parts
2. Lab: Open the Ex5 study
3. Demo: Add a conveyor and sensors
4. Lab: Add a conveyor and sensors
5. Demo: Use conveyable parts, a conveyor, and sensors
6. Lab: Use conveyable parts, a conveyor, and sensors
7. Create property projectors
8. Demo: Define property lists and property projectors
9. Lab: Define property lists and property projectors
10. Create property sensors
11. Demo: Create and use property sensors
12. Lab: Create and use property sensors
13. Quick tips to debug a conveyor or sensor simulation
14. Knowledge Check: Define and simulate sensors and conveyors (part 2)

5 Define and simulate basic logic blocks 18 Topics

1. Safety mat example
2. Demo: Define a safety mat
3. Lab: Define a safety mat
4. Logic block algebraic behavior
5. Demo: Create a simple counter
6. Lab: Create a simple counter
7. Rising edge and falling edge functions
8. Demo: Use falling edge in a logic block
9. Lab: Use falling edge in a logic block
10. Examine logic block functions for a press
11. Demo: Test the functions in the press example
12. Lab: Test the functions in the press example
13. CNC controller logic block example
14. Demo: Use time delays in logic blocks
15. Lab: Examine a press simulation demo
16. Lab: Use time delays in logic blocks
17. Lab: Use mixed Boolean and algebraic expressions
18. Knowledge Check: Define and simulate basic logic blocks

6 Define and simulate smart components 13 Topics

1. Smart components
2. Light stack example
3. Demo: Create geometry for a reusable light stack
4. Lab: Create geometry for a reusable light stack
5. Demo: Create and testing kinematics for a reusable light stack
6. Lab: Create and testing kinematics for a reusable light stack
7. Lab: Create and testing logic for a reusable light stack
8. Perform connection mapping
9. Identify a custom conveyor example
10. Lab: Define a “default” conveyor
11. Lab: Define a “custom” conveyor
12. Quick tips for logic block simulations
13. Knowledge Check: Define and simulate smart components

7 Putting It All Together: Use smart components, modules, and sensors together 20 Topics

1. Beginning of the putting it all together
2. Create line simulation studies
3. Demo: Open and examine a simple event-based study
4. Lab: Open and exame a simple event-based study
5. Perform automatic smart component creation
6. Demo: Setup the clamps and pins smart component
7. Lab: Setup the clamps and pins smart component
8. Create and Use modules
9. Demo: Create a new module
10. Lab: Create a new module
11. Create proximity sensor
12. Demo: Create part proximity sensors on the fixture and conveyor
13. Lab: Create part proximity sensors on the fixture and conveyor
14. Generate part appearances (again)
15. Demo: Generating part appearances
16. Lab: Generating part appearances
17. Create new non-sim operations for logic
18. Demo: Create the initial operation
19. Lab: Create the initial operation
20. Knowledge Check: Putting It All Together: Use smart components, modules, and sensors together

8 Define and simulate basic robotic event-based simulations (part 1) 12 Topics

1. Introduction to event-based robotics
2. Setup a basic robotic zone
3. Demo: Setup a basic robotic zone
4. Lab: Setup a basic robotic zone
5. Basic robot macros
6. Demo: Use basic robot macros
7. Lab: Use basic robot macros
8. Identify default signals and robot programs
9. Demo: Test the simulation
10. Lab: Test the simulation
11. Calling paths from main programs
12. Knowledge Check: Define and simulate basic robotic event-based simulations (part 1)

9 Define and simulate basic robotic event-based simulations (part 2) 14 Topics

1. Use robot program conditions
2. Demo: Enter basic OLP commands as free text
3. Lab: Enter basic OLP commands as free text
4. Setup robot path segment communication
5. Demo: Setup robot path segment communication
6. Lab: Setup robot path segment communication
7. Signal graphs in the Robot Viewer
8. Demo: Use the Robot Viewer in event-based studies
9. Lab: Use the Robot Viewer in event-based studies
10. Create various Excel reports
11. Lab: Create basic Excel reports
12. Lab: Create cycle time reports
13. Quick tips for robot signals and macros
14. Knowledge Check: Define and simulate basic robotic event-based simulations (part 2)

10 Putting It All Together: Use fixtures, robots, and conveyors together 10 Topics

1. Fixture and robot 1 putting it all together
2. Demo: Simulate the fixture and first robot (part 1)
3. Lab: Simulate the fixture and first robot (part 1)
4. Demo: Simulate the fixture and first robot (part 2)
5. Lab: Simulate the fixture and first robot (part 2)
6. Robot 2 and conveyor putting it all together
7. Demo: Add the second robot and conveyor (part 1)
8. Lab: Add the second robot and conveyor (part 1)
9. Lab: Add the second robot and conveyor (part 2)
10. Knowledge Check: Putting It All Together: Use fixtures, robots, and conveyors together

11 Assessment: Develop Process Simulate robotic and automation event-based simulations (CEE) 1 Topic

1. Assessment: Develop Process Simulate robotic and automation event-based simulations (CEE)

1 Build Factory Visualization 10 Topics

1. Overview of Application User Interface
2. Steps for Building Factory Visualization
3. Create Site
4. Create Zones
5. Create Layers
6. Upload 2D Layout
7. Upload 3D Models
8. Add Panoramic Images
9. Import Scans
10. Populating a New Site – Part 1

2 Connect to Manufacturing Information 4 Topics

1. Steps for Connecting to Manufacturing Information
2. Adding Address Placemarks
3. Add URL Placemark
4. Populating a New Site – Part 2

1 Identify basics for Process Simulate on Teamcenter users - 16 7 Topics

1. Identify the Process Simulate basic methodology and purpose
2. Overview of Teamcenter
3. Overview of Teamcenter Manufacturing Process Planner
4. Identify structure types and understand their use
5. Examine basic manufacturing object types and their use
6. Examine basic concepts of Teamcenter manufacturing
7. Knowledge Check: Identify basics for Process Simulate on Teamcenter users

2 Identify steps in Teamcenter Manufacturing Process Planner required for Process Simulate on Teamcenter - 16 27 Topics

1. Identify the Manufacturing Process Planner perspective
2. Demo: Log on to Teamcenter
3. Lab: Log on to Teamcenter
4. Demo: Search for a product structure in Manufacturing Process Planner
5. Lab: Search for a product structure in Manufacturing Process Planner
6. Create a high-level BOE and plant BOP
7. Demo: Create the high-level plant BOP structure
8. Lab: Create the high-level plant BOP structure
9. Demo: Create the high-level plant BOE structure
10. Lab: Create the high-level plant BOE structure
11. Associate structures
12. Demo: Associate the structures together
13. Lab: Associate the structures together
14. Manage studies in Manufacturing Process Planner
15. Demo: Use the Study Manager in Manufacturing Process Planner
16. Lab: Use the Study Manager in Manufacturing Process Planner
17. Manage studies from Process Simulate (Sort, filter, and view studies)
18. Manage studies from Process Simulate (Create, edit, delete, and load studies)
19. Demo: Create and load studies
20. Lab: Create and load studies
21. Identify the prototype and instance relationship (TC)
22. Use classified resources in the BOE
23. Lab: Use classified resources in the BOE
24. Send data to Process Simulate on Teamcenter
25. Demo: Send data to Process Simulate on Teamcenter
26. Lab: Send data to Process Simulate on Teamcenter
27. Knowledge Check: Identify steps in Teamcenter Manufacturing Process Planner required for Process Simulate on Teamcenter

3 Identify Process Simulate basics (PS on TC) - 16 13 Topics

1. Identify the basic Process Simulate window
2. Identify Process Simulate viewers
3. Demo: Browsing the Process Simulate study
4. Lab: Browsing the Process Simulate study
5. Customize the user configuration
6. Manage the window layout
7. Demo: Dock and float viewers
8. Lab: Dock and float viewers
9. Demo: Save a window layout
10. Lab: Save a window layout
11. Demo: Use a window layout
12. Lab: Use a window layout
13. Knowledge Check: Identify Process Simulate basics (PS on TC)

4 Identify the connection between Process Simulate on Teamcenter and Manufacturing Process Planner - 16 12 Topics

1. Create plant and process structures in Process Simulate
2. Demo: Modify the BOE structure in Process Simulate
3. Lab: Modify the BOE structure in Process Simulate
4. Demo: Add processes and operations to the plant BOP structure
5. Lab: Add processes and operations to the plant BOP structure
6. Create and editing simulative operations
7. Demo: Add simulative operations
8. Lab: Add simulative operations
9. Return to Manufacturing Process Planner from Process Simulate
10. Demo: Edit the results in Manufacturing Process Planner
11. Lab: Edit the results in Manufacturing Process Planner
12. Knowledge Check: Identify the connection between Process Simulate on Teamcenter and Manufacturing Process Planner

5 Assessment: Getting started with Process Simulate on TC - 16 1 Topic

1. Assessment: Getting started with Process Simulate on TC

1 Use the basic Teamcenter environment - 16 12 Topics

1. Identify basic portions of Teamcenter
2. Demo: Configure the navigation pane for manufacturing
3. Lab: Configure the navigation pane for manufacturing
4. Demo: Use and modify the navigation pane
5. Lab: Use and modify the navigation pane
6. Group, revise, and copy objects
7. Demo: Create folders, an item, a dataset, and a workflow
8. Lab: Create folders, an item, a dataset, and a workflow
9. Access data in Teamcenter
10. Demo: Search the Teamcenter database
11. Lab: Search the Teamcenter database
12. Knowledge Check

2 Introduction to MPP and MBM - 16 8 Topics

1. Identify object types found in manufacturing structures
2. Navigate the Manufacturing Process Planer and Multi-BOM Manager perspectives
3. Demo: Identify and modify a manufacturing perspective
4. Lab: Identify and modify a manufacturing perspective
5. Identify basic features of the MPP and MBM
6. Demo: Visualize objects in the graphic viewer
7. Lab: Visualize objects in the graphic viewer
8. Knowledge Check

3 Create and use collaboration context objects - 16 10 Topics

1. Identify collaboration context, structure context, and configuration context objects
2. Load existing structures into MPP and MBM
3. Demo: Identify occurrences, BOM line properties and BOM line revisions
4. Lab: Identify occurrences, BOM line properties and BOM line revisions
5. Demo: Create a collaboration context from another collaboration context
6. Work with a collaboration context
7. Lab: Create a collaboration context from another collaboration context
8. Demo: Begin a new process plan putting it all together
9. Lab: Begin a new process plan putting it all together
10. Knowledge Check

4 Manage and validate studies - 16 4 Topics

1. Search for studies with the study manager
2. Create and open studies with study manage
3. Lab: Using study manager
4. Knowledge Check

5 Assessment: Identify Teamcenter and Manufacturing Process Planner basics for Process Simulate users - 16 1 Topic

1. Assessment: Identify Teamcenter and Manufacturing Process Planner basics for Process Simulate users

1 Identify basic tools in Process Simulate environment (part 1) (PS on TC) - 16 26 Topics

1. Work with viewers
2. Demo: Automotive — Get an overview of the objects in the Object Tree
3. Lab: Automotive — Get an overview of the objects in the Object Tree
4. Demo: Airplane — Get an overview of the objects in the Object Tree
5. Lab: Airplane — Get an overview of the objects in the Object Tree
6. Demo: Structure — Get an overview of the objects in the Object Tree
7. Lab: Structure — Get an overview of the objects in the Object Tree
8. Demo: Identify object Tree basics and create groups
9. Lab: Identify object Tree basics and create groups
10. Demo: Use the right-click popup menu
11. Lab: Use the right-click popup menu
12. Setup and control the Graphic Viewer
13. Demo: Graphic Viewer controls
14. Lab: Graphic Viewer controls
15. Lab: Create and use cameras
16. Identify entity selection techniques
17. Demo: Select objects in the Graphic Viewer
18. Lab: Select objects in the Graphic Viewer
19. Demo: Identify additional methods of multiple entity selection
20. Lab: Identify additional methods to select multiple entities
21. Demo: Use the Toggle Display command
22. Lab: Use the Toggle Display command
23. Identify selection filters (optional)
24. Demo: Blank all the frames using selection filters
25. Lab: Blank all the frames using selection filters
26. Knowledge Check: Identify basic tools in Process Simulate environment (part 1)

2 Identify basic tools in Process Simulate environment (part 2) (PS on TC) - 16 17 Topics

1. Display objects by type
2. Demo: Blank objects using the Display By Type command
3. Lab: Blank objects using the Display By Type command
4. Demo: Examine the relationship between measuring and units
5. Lab: Examine the relationship between measuring and units
6. Visualize graphics and adjust graphics performance
7. Demo: Change visualization performance
8. Lab: Change visualization performance
9. Demo: Change graphical visualization
10. Lab: Change graphical visualization
11. Demo: Use texture maps
12. Lab: Use texture maps
13. Demo: Use point clouds
14. Lab: Use point clouds
15. Identify additional graphics commands
16. Access online help and release notes
17. Knowledge Check: Identify basic tools in Process Simulate environment (part 2)

3 Identify the placement commands (added for Process Simulate on Teamcenter) - 16 9 Topics

1. Identify methods to access Teamcenter data in Process Simulate
2. Identify the Classification Search viewer
3. Lab: Automotive — Insert classified resources
4. Lab: Airplane and Structure — Insert classified resources
5. Identify the Resource Browser
6. Lab: Adding an unclassified resource
7. Assign data from your Teamcenter structures
8. Lab: Assign data from your Teamcenter structures
9. Knowledge Check: Identify the placement commands (added for Process Simulate on Teamcenter)

4 Identify the placement commands (PS on TC) - 16 19 Topics

1. Identify Process Simulate placement commands
2. Demo: Use the Fast Placement command
3. Lab: Use the Fast Placement command
4. Change selection behavior and create frames
5. Demo: Create a frame
6. Lab: Create a frame
7. Use the Placement Manipulator command
8. Demo: Shift and rotate instances on-screen
9. Lab: Shift and rotate instances on-screen
10. Demo: Examine the relationship between Placement Manipulator measuring and units
11. Lab: Examine the relationship between Placement Manipulator measuring and units
12. Demo: Incremental shifting of objects from a reference frame
13. Lab: Incremental shifting of objects from a reference frame
14. Use the Relocate command
15. Demo: Relocate an object relative to two existing frames
16. Lab: Relocate an object relative to two new frames
17. Demo: Relocate an object relative to two existing frames
18. Lab: Relocate an object relative to two existing frames
19. Knowledge Check: Identify the placement commands

5 Use kinematics to create operations (PS on TC) - 16 14 Topics

1. Identify the fundamentals of kinematics
2. Demo: Jog the joints of a simple object
3. Lab: Jog the joints of a simple object
4. Demo: Define kinematic poses
5. Lab: Define kinematic poses
6. Demo: Creating a simulative operation from poses
7. Lab: Creating a simulative operation from poses
8. Examine inverse kinematics concepts
9. Use inverse kinematics
10. Demo: Examine the kinematic tree of a robot
11. Lab: Examine the kinematic tree of a robot
12. Demo: Make the robot move
13. Lab: Make the robot move
14. Knowledge Check: Use kinematics to create operations

6 Detect collisions (PS on TC) - 16 15 Topics

1. Identify collision detection concepts
2. Identify the Collision Viewer
3. Demo: Identify the Collision Viewer and define fast collision sets
4. Lab: Identify the Collision Viewer and define fast collision sets
5. Demo: Define collision sets using list pairs
6. Lab: Define collision sets using list pairs
7. Distinguish the levels of detection granularity
8. Examine additional aspects of collision detection
9. Demo: Examine collision setup and the Collision Viewer
10. Lab: Examine collision setup and the Collision Viewer
11. Demo: Filter collision results
12. Lab: Filter collision results
13. Demo: Identify factors that affect collision detection
14. Lab: Identify factors that affect collision detection
15. Knowledge Check: Detect collisions

7 The loop between Process Simulate standalone (Teamcenter compatible) and Process Simulate on Teamcenter - 16 6 Topics

1. Start Process Simulate (connected) from the desktop (TC)
2. Demo: Starting Process Simulate (connected) from the desktop
3. Lab: Starting Process Simulate (connected) from the desktop
4. Demo: Start and exit Process Simulate Standalone
5. Lab: Start and exit Process Simulate Standalone
6. Knowledge Check: The loop between Process Simulate standalone (Teamcenter compatible) and Process Simulate on Teamcenter

8 Assessment: Identify Process Simulate Basics (PS on TC) - 16 1 Topic

1. Assessment: Identify Process Simulate Basics (PS on TC)

1 Define part-in-tool robot spot welding paths (PS on TC) - 16 10 Topics

1. Identify basic robotics concepts
2. Identify the Manufacturing feature representation
3. Examine basic spot welding concepts
4. Identify the basic spot weld process methodology
5. Project spot manufacturing features
6. Demo: View spot manufacturing features in Process Simulate
7. Lab: View spot manufacturing features in Process Simulate
8. Demo: Project spot manufacturing features
9. Lab: Project spot manufacturing features
10. Knowledge Check: Define part-in-tool robot spot welding paths

2 Adjust welds in spot welding paths (PS on TC) - 16 13 Topics

1. Edit a weld path
2. Demo: Adjust a weld path (part 1)
3. Lab: Adjust a weld path (part 1)
4. Demo: Adjust a weld path (part 2)
5. Lab: Adjust a weld path (part 2)
6. Create multi-sections and a gun cloud
7. Demo: Perform gun shank validation
8. Lab: Perform gun shank validation
9. Use the weld distribution center (WDC)
10. Demo: Use Weld Distribution Center with Automatic Approach Angle
11. Lab: Use Weld Distribution Center with Automatic Approach Angle
12. Revisit the spot welding process methodology
13. Knowledge Check: Adjust welds in spot welding paths

3 Define part-on-robot spot welding paths (PS on TC) - 16 14 Topics

1. Examine the gripper creation process
2. Setup a basic part-on-robot spot weld study
3. Demo: Put the gripper on the robot for pedestal welding
4. Lab: Put the gripper on the robot for pedestal welding
5. Create material handling (pick and place) operations for part-on-robot spot welding
6. Demo: Get and put the part in the fixture
7. Lab: Get and put the part in the fixture
8. Create a rough mounted workpiece (pedestal welding) path
9. Demo: Create a mounted workpiece path
10. Lab: Create a mounted workpiece path
11. Orient workpiece locations
12. Demo: Orient the locations in a pedestal welding path
13. Lab: Orient the locations in a pedestal welding path
14. Knowledge Check: Define part-on-robot spot welding paths

4 Search for spot weld guns and use servo guns (PS on TC) - 16 8 Topics

1. Perform a weld gun search
2. Lab: Perform gun search
3. Use servo guns to perform spot welding
4. Demo: Simulate robots with servo guns
5. Lab: Simulate robots with servo guns
6. Lab: Perform welding with servo guns (part 1)
7. Lab: Perform welding with servo guns (part 2)
8. Knowledge Check: Search for spot weld guns and use servo guns

5 Define robotic drilling and riveting paths (PS on TC) - 16 11 Topics

1. Identify the drilling and riveting process
2. Demo: Create drill and rivet manufacturing features
3. Lab: Create drill and rivet manufacturing features
4. Create drilling and riveting operations
5. Demo: Create riveting operations
6. Lab: Create riveting operations
7. Create waypoints and use the Waypoint Viewer
8. Lab: Create waypoints and use the Waypoint Viewer
9. Perform drill and rivet gun search
10. Lab: Perform drill and rivet gun search
11. Knowledge Check: Define robotic drilling and riveting paths

6 Define robotic material handling paths (PS on TC) - 16 10 Topics

1. Examine the gripper creation process
2. Setup a simple material handling study
3. Demo: Setup a pick and place (material handling) study
4. Lab: Setup a pick and place (material handling) study
5. Create material handling (pick and place) operations
6. Demo: Create the basic (PNP) process
7. Lab: Create the basic (PNP) process
8. Demo: Stack boxes using a robot
9. Lab: Stack boxes using a robot
10. Knowledge Check: Define robotic material handling paths (PS on TC)

7 Define robotic arc welding continuous feature paths (PS on TC) - 16 15 Topics

1. Examine the arc weld robotic process
2. Create arc weld continuous manufacturing features and operations
3. Demo: Use continuous feature operations
4. Lab: Use continuous feature operations
5. Demo: Create an arc-weld path from a manufacturing feature
6. Lab: Create an arc-weld path from a manufacturing feature
7. Use a seventh axis and more (external axis)
8. Demo: Examine a 7th axis example
9. Lab: Examine a 7th axis example
10. Demo: Set robotic 7th axis values
11. Lab: Set robotic 7th axis values
12. Create and edit more arc weld paths
13. Lab: Create arc manufacturing features and locations
14. Lab: Modify arc weld operations and seams
15. Knowledge Check: Define robotic arc welding continuous feature paths (PS on TC)

8 Define robotic paint continuous feature paths (PS on TC) - 16 11 Topics

1. Examine the paint continuous robotic process
2. Create and projecting paint manufacturing features
3. Demo: Paint manufacturing features for the whitehouse part
4. Lab: Paint manufacturing features for the whitehouse part
5. Setup paint brushes and meshes
6. Lab: Setup paint brushes and meshes
7. Modify paint continuous manufacturing features
8. Lab: Modify paint operations and seams
9. Simulate paint coverage and more
10. Lab: Simulate paint coverage
11. Knowledge Check: Define robotic paint continuous feature paths

9 Define other robotic continuous feature paths (PS on TC) - 16 9 Topics

1. Examine other continuous robotic processes
2. Lab: Deburr manufacturing features for the whitehouse part
3. Project other types of continuous manufacturing features
4. Demo: Create deburring paths
5. Lab: Create deburring paths
6. Modify continuous manufacturing features
7. Demo: Modify deburr operations and seams
8. Lab: Modify deburr operations and seams
9. Knowledge Check: Define other robotic continuous feature paths (PS on TC)

10 Test robot reach and set basic robotic path attributes (PS on TC) - 16 17 Topics

1. Test robot’s reachability to the locations
2. Demo: Spot — Test robotic reach
3. Lab: Spot — Test robotic reach
4. Demo: Drill/Rivet — Test robotic reach
5. Lab: Drill/Rivet — Test robotic reach
6. Demo: Arc — Test robotic reach
7. Lab: Arc — Test robotic reach
8. Demo: Paint — Test robotic reach
9. Lab: Paint — Test robotic reach
10. Demo: Debur — Test robotic reach
11. Lab: Deburr — Test robotic reach
12. Demo: Perform Jump/Move to location and TCP tracking
13. Lab: Perform Jump/Move to location and TCP tracking
14. Edit location attributes
15. Demo: Edit robotic path location attributes
16. Lab: Edit robotic path location attributes
17. Knowledge Check: Test robot reach and set basic robotic path attributes (PS on TC)

11 Add via locations to avoid collisions (PS on TC) - 16 11 Topics

1. Identify path modification (via locations) techniques
2. Lab: Add start/end and approach/retract via locations
3. Use via location creation tools
4. Lab: Create collisions lists
5. Lab: Using Add Location By Pick
6. Use via location modification commands
7. Lab: Simulate a segment of a path
8. Lab: Use Manipulate Location
9. Lab: Use the Automatic Approach Angle dialog box
10. Lab: Spot/Drill/Rivet — Modify locations
11. Knowledge Check: Add via locations to avoid collisions (PS on TC)

12 Identify other path modification and creation tools (PS on TC) - 16 8 Topics

1. Identify other path modification techniques
2. Lab: Copy and interpolate the location orientation
3. Lab: Mini putting it all together
4. Lab: Reverse and reorder the locations in an operation
5. Use Automatic Path Planner for robot paths
6. Lab: Spot — Use Automatic Path Planner for robot paths
7. Identify additional path creation tools
8. Knowledge Check: Identify other path modification and creation tools (PS on TC)

13 Identify location attributes for multiple robot interlocking (PS on TC) - 16 11 Topics

1. Identify basic OLP (location) commands
2. Lab: Drive and wait for devices to move
3. Lab: Add a second robot
4. Lab: Simulate two robots
5. Setup multiple robot interlocking
6. Lab: Setup robot signals using the Teach Pendant
7. Use the Simulation Monitor
8. Lab: Use Simulation Monitor
9. Work with hard and soft limits
10. Lab: Avoid robotic collisions with stationary objects using soft limits
11. Knowledge Check: Identify location attributes for multiple robot interlocking (PS on TC)

14 Create swept volumes, interference zones, and events (PS on TC) - 16 5 Topics

1. Lab: Use swept volumes
2. Lab: Spot — Use inference zones
3. Lab: Add attach event
4. Lab: Add a view point event and a pause event
5. Knowledge Check: Create swept volumes, interference zones, and events (PS on TC)

15 Examine other robotic path modification tools and techniques (PS on TC) - 16 7 Topics

1. Lab: Use virtual reality tools
2. Demo: Create arc manufacturing features manually
3. Lab: Create arc manufacturing features manually
4. Lab: Create arc seams (using Project Arc Seam) manually
5. Lab: Setup and simulating synchronized robot motion
6. Knowledge Check 1: Examine other robotic path modification tools and techniques (PS on TC)
7. Knowledge Check 2: Examine other robotic path modification tools and techniques (PS on TC)

16 Assessment: Develop and simulate Process Simulate robotic paths (PS on TC) - 16 1 Topic

1. Assessment: Develop and simulate Process Simulate robotic paths (PS on TC)

1 Create object flow simulative operations (PS on TC) 21 Topics

1. Identify object flow path basics
2. Create object flow operations
3. Demo: Garage door opener — Open the data
4. Lab: Garage door opener — Open the data
5. Demo: Airplane — Open the data
6. Lab: Airplane — Open the data
7. Demo: Structure — Open the data
8. Lab: Structure — Open the data
9. Demo: Create a simple object flow path
10. Lab: Create a simple object flow path
11. Simulate an assembly path
12. Demo: Simulate the current part along its path
13. Lab: Simulate the current part along its path
14. Demo: Simulate a part along a segment of its path
15. Lab: Simulate a part along a segment of its path
16. Select other grip frames for object flow paths
17. Demo: Identify the current grip frame
18. Lab: Identify the current grip frame
19. Demo: Change the grip frame of a object flow operation
20. Lab: Change the grip frame of a object flow operation
21. Knowledge Check: Create object flow simulative operations

2 Create locations in object flow simulative operations (PS on TC) 15 Topics

1. Perform dynamic and static collision detection
2. Demo: Create and setup collision sets
3. Lab: Create and setup collision sets
4. Demo: Create a path to avoid collisions
5. Lab: Create a path to avoid collisions
6. Identify path modification tools
7. Use location creation tools
8. Demo: Use Add Location Interactively
9. Lab: Use Add Location Interactively
10. Use location modification commands
11. Demo: Setup the Path Editor and simulate a segment of a path
12. Lab: Setup the Path Editor and simulate a segment of a path
13. Demo: Use Manipulate Location
14. Lab: Use Manipulate Location
15. Knowledge Check: Create locations in object flow simulative operations

3 Modify locations in object flow simulative operations (PS on TC) 10 Topics

1. Perform path modification
2. Demo: Copy the location orientation and reverse/reorder the path
3. Lab: Copy the location orientation and reverse/reorder the path
4. Use Automatic Path Planner for object flow paths
5. Demo: Use Automatic Path Planner for object flows
6. Lab: Use Automatic Path Planner for object flows
7. Create flow operation swept volumes
8. Demo: Create swept volumes with object flow paths
9. Lab: Create swept volumes with object flow paths
10. Knowledge Check: Modify locations in object flow simulative operations

4 Create sequences of object flow simulative operations (PS on TC) 8 Topics

1. Create sequences of simulative operations
2. Demo: Setup Gantt chart operations and event colors
3. Lab: Setup Gantt chart operations and event colors
4. Demo: Use the Gantt Chart on the Sequence Editor
5. Lab: Use the Gantt Chart on the Sequence Editor
6. Auto-generate a sequence from an assembly
7. Lab: Use the Automatic Disassembly command to create a sequence
8. Knowledge Check: Create sequences of object flow simulative operations

5 Use presentation mode, event creation, and movie manager (PS on TC) 12 Topics

1. Activate presentation mode for a simulation
2. Demo: Use presentation mode
3. Lab: Use presentation mode
4. Add events to a sequence of simulative operations
5. Demo: Color events by type and add an attach event
6. Lab: Color events by type and add an attach event
7. Demo: Add a view point event and a pause event
8. Lab: Add a view point event and a pause event
9. Use the Movie Manager
10. Demo: Using Movie Manager
11. Lab: Using Movie Manager
12. Knowledge Check: Use presentation mode, event creation, and movie manager

6 Simulate hand tools and virtual reality (PS on TC) 12 Topics

1. Work with hand tools
2. Lab: Checking tool access to a bolt/screw
3. Lab: Removing the bolts/screw with a tool
4. Demo: Use smart tool positioning
5. Lab: Use smart tool positioning
6. Lab: Examine the finished computer assembly study
7. Lab: Rotating the case
8. Lab: Removing the screws
9. Lab: Removing the case
10. Lab: Removing a card
11. Lab: Automotive putting it all together
12. Knowledge Check: Simulate hand tools and virtual reality

7 Assessment: Develop Process Simulate object flow simulations (PS on TC) 1 Topic

1. Assessment: Develop Process Simulate object flow simulations (PS on TC)

1 Identify basic concepts for PS on eMS Standalone - 17 9 Topics

1. Identify the Process Simulate basic methodology and purpose
2. Start Process Simulate Standalone
3. Identify the data structure and basic object types
4. Demo: Set and view basic options
5. Lab: Set and view basic options
6. Create and open a study
7. Demo: Examine object types in an existing study and create a new study
8. Lab: Examine object types in an existing study and create a new study
9. Knowledge Check: Identify basic concepts for Process Simulate Standalone (eMS Compatible)

2 Identify Process Simulate basics - 17 13 Topics

1. Identify the basic Process Simulate window
2. Identify Process Simulate viewers
3. Demo: Browsing the Process Simulate study
4. Lab: Browsing the Process Simulate study
5. Customize the user configuration
6. Manage the window layout
7. Demo: Dock and float viewers
8. Lab: Dock and float viewers
9. Demo: Save a window layout
10. Lab: Save a window layout
11. Demo: Use a window layout
12. Lab: Use a window layout
13. Knowledge Check: Identify Process Simulate basics

3 Identify basic tools in Process Simulate environment (part 1) - 17 29 Topics

1. Identify study data
2. Work with viewers
3. Demo: Automotive — Get an overview of the objects in the Object Tree
4. Lab: Automotive — Get an overview of the objects in the Object Tree
5. Demo: Airplane — Get an overview of the objects in the Object Tree
6. Lab: Airplane — Get an overview of the objects in the Object Tree
7. Demo: Structure — Get an overview of the objects in the Object Tree
8. Lab: Structure — Get an overview of the objects in the Object Tree
9. Demo: Identify object Tree basics and create groups
10. Lab: Identify object Tree basics and create groups
11. Demo: Use the right-click popup menu
12. Lab: Use the right-click popup menu
13. Setup and control the Graphic Viewer
14. Control the Graphic Viewer with the mouse
15. Demo: Graphic Viewer controls
16. Lab: Graphic Viewer controls
17. Demo: Use Cameras
18. Lab: Use Cameras
19. Identify entity selection techniques
20. Demo: Select objects in the Graphic Viewer
21. Lab: Select objects in the Graphic Viewer
22. Demo: Identify additional methods of multiple entity selection
23. Lab: Identify additional methods of multiple entity selection
24. Demo: Use the Toggle Display command
25. Lab: Use the Toggle Display command
26. Identify selection filters (optional)
27. Demo: Blank all the frames using selection filters
28. Lab: Blank all the frames using selection filters
29. Knowledge Check: Identify basic tools in Process Simulate environment (part 1)

4 Identify basic tools in Process Simulate environment (part 2) - 17 15 Topics

1. Display objects by type
2. Demo: Blank objects using the Display By Type command
3. Lab: Blank objects using the Display By Type command
4. Visualize graphics and adjust graphics performance
5. Demo: Change graphical visualization
6. Lab: Change graphical visualization
7. Demo: Use texture maps
8. Lab: Use texture maps
9. Demo: Use point clouds
10. Lab: Use point clouds
11. Identify additional graphics commands
12. Demo: Identify additional Process Simulate commands
13. Lab: Identify additional Process Simulate commands
14. Access online help and release notes
15. Knowledge Check: Identify basic tools in Process Simulate environment (part 2)

5 Identify the placement commands - 17 23 Topics

1. Identify Process Simulate placement commands
2. Demo: Use the Fast Placement command
3. Lab: Use the Fast Placement command
4. Change selection behavior and create frames
5. Demo: Create a frame
6. Lab: Create a frame
7. Use the Placement Manipulator command
8. Demo: Shift and rotate instances on-screen
9. Lab: Shift and rotate instances on-screen
10. Demo: Examine the relationship between Placement Manipulator measuring and units
11. Lab: Examine the relationship between Placement Manipulator measuring and units
12. Demo: Incremental shifting of objects from a reference frame
13. Lab: Incremental shifting of objects from a reference frame
14. Use the Relocate command
15. Lab: Relocate an object relative to two new frames
16. Demo: Relocate an object relative to two existing frames
17. Lab: Relocate an object relative to two existing frames
18. Physics
19. Demo: Basic Physics
20. Lab: Basic Physics
21. Demo: Distribute Parts
22. Lab: Distribute Parts
23. Knowledge Check: Identify the placement commands

6 Use kinematics to create operations - 17 12 Topics

1. Identify the fundamentals of kinematics
2. Demo: Jog the joints of a simple object
3. Lab: Jog the joints of a simple object
4. Demo: Creating a simulative operation from poses
5. Lab: Creating a simulative operation from poses
6. Examine inverse kinematics concepts
7. Use inverse kinematics
8. Demo: Examine the kinematic tree of a robot
9. Lab: Examine the kinematic tree of a robot
10. Demo: Make the robot move
11. Lab: Make the robot move
12. Knowledge Check: Use kinematics to create operations

7 Detect collisions - 17 15 Topics