User Guide
v8.3
v8.3
  • Extend Robotics User Manual
  • introduction
    • AMAS Overview
    • Compatible XR Systems
    • Supported Robots
      • Robots
        • Ufactory
        • Universal Robots
        • Dobot
        • Pal Robotics
        • Mitsubishi Electric
        • AGILE-X
      • Accessories
        • Robotiq
        • ROBOTIS
        • Ufactory
    • Choosing 3D Sensors
      • Limitations
      • Sensor Types
      • Visual Comparison
    • Typical Network Connection
    • Specifications
    • Release Notes
      • AMAS V7.6
      • AMAS V8.3
  • getting started
    • Getting Started with AMAS
    • Navigating Through the User Guide
  • AMAS VR Application
    • Download AMAS
      • Setup Quest Application
      • Running the Application
      • Home Scene Arrival
    • Control Panel
      • Floating Keyboard
      • Error popup
    • Interactions Modes
      • View Adjust Mode
      • Robot Control Mode
      • Interaction Utilities
    • Hand Tracking
    • Passthrough Mode
    • Manage multiple devices
      • RoboKit Addition and Configuration
      • Loading RoboKit
      • SenseKit Addition and Configuration
        • Sensor Specific Firmware Settings
        • 2D - 3D fusion
      • Loading SenseKit
      • AudioKit Addition and Configuration
      • Loading AudioKit
      • Configuration Bundles
    • Hand-eye Calibrations
      • Calibration Prerequisite
      • SenseKit to Robot Calibration
      • SenseKit to SenseKit Calibration
      • Manual Sensekit Calibration
      • Manual RoboKit Calibration
    • Motion Playback
      • Creating a Recording
      • Load a Recorded Motion
      • Replay a Recorded Motion
    • Visual Haptic
      • Force Torque Calibration
    • Speech Recognition
    • Utilities
      • Stationary Headset
    • UR Program Change
    • Mobile Robot Movement
      • Virtual Joystick
      • Quest series controller
    • Shutdown Instructions
    • Over-the-Air Firmware Updates
    • Safety Utilities
      • RoboKit Safety Utilities
      • Joint Limit Recovery Visualisation
      • Robot Rescue
  • SenseKit
    • Introduction
    • Components
      • Pre-requisite SenseKit Components
      • Shipped SenseKit Components
    • Mounting Options
    • Setup Instructions
    • Running Instructions
    • SenseKit IP Configuration
    • Calibration Instructions
    • SenseKit Manual Firmware Upgrade / Install
    • Shutdown Instructions
  • RoboKit
    • Introduction
    • Components
      • Pre-requisite RoboKit Components
      • Shipped RoboKit Components
    • Initial Setup Instructions
      • UFactory xArm
      • UR e Series
      • UR CB Series
      • Dobot CR-A Series
      • AgileX
      • Dexterous Hand with xArm
    • Instructions for Starting RoboKit
    • RoboKit IP Configuration
    • RoboKit Manual Firmware Upgrade / Install
    • Shutdown Instructions
    • Safety Protocols
  • API
    • RoboKit
      • Current Robokit Publishers, Subscribers and Services
      • Gripper Customizations
      • Message and Service Definitions
    • SenseKit
  • Other Information
    • Troubleshooting
    • Customized Hardware Integrations
    • Remote Demonstration Requirements
    • Backward Compatibility
    • Guides
      • PAL TIAGo
        • Mobile Base, Arm and Torso Control
        • 3D Sensor
        • Additional Sensor Data Visualization
        • First Person View Mode
        • Take Home Functionality
        • Audio
        • Bundle
      • Robot - Sensor Sync
      • UI Design Reference
    • Downloads
      • OTA
      • Calibration Board
  • System Requirements
    • PC Requirements
    • Network Requirements
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  1. Other Information
  2. Guides
  3. PAL TIAGo

Take Home Functionality

Functionality to move the arm of the Tiago to a predefined location

PreviousFirst Person View ModeNextAudio

Last updated 9 months ago

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AMAS provides functionality to move the robot to a predefined location when the arm is not in use, this gives the user opportunity to fold the arm concisely allowing them to navigate in the environment easily with the reduced risk of the arm hitting something.

To move the arm to the Home Position, user need to follow the following steps,

  1. Go to the Configuration Tab in the Wrist Menu.

  2. Select Robokit tab.

  3. In the Active Robokits Panel located the entry for the Tiago Robot.

  4. In the section for the Tiago's Robokit there would be an interactable home icon.

  5. Click the home icon (highlighted by green border) as shown in the picture below.

  1. After clicking the Take Home button, the trajectory operations panel will open.

Trajectory Operations Panel is used to preview the planned motion the robot will perform to recover from the error, authorize the planned motion if the motion is acceptable or to stop the motion of the arm in case of sudden change in environment during the execution of the motion.

  1. To re-visualize the path, in the Trajectory Operations Panel press the Visualize Robots Planned Motion button to preview the motion the arm will make.

  2. In case the planned motion is not acceptable then click Cancel button and move the digital twin to a different position and press the home icon again. This step could be repeated as many times till a suitable path is found.

  3. Upon finding the suitable path press the Execute Planned Motion , when the execution is completed the Operation Status would indicate the state.

  4. Now press Cancel to return to the Active Robokits panel. Take Home motion is now finished.

Take Home Button
Trajectory Operations Panel.