| .. _haply-teleoperation: | |
| Setting up Haply Teleoperation | |
| =============================== | |
| .. currentmodule:: isaaclab | |
| `Haply Devices`_ provides haptic devices that enable intuitive robot teleoperation with | |
| directional force feedback. The Haply Inverse3 paired with the VerseGrip creates an | |
| end-effector control system with force feedback capabilities. | |
| Isaac Lab supports Haply devices for teleoperation workflows that require precise spatial | |
| control with haptic feedback. This enables operators to feel contact forces during manipulation | |
| tasks, improving control quality and task performance. | |
| This guide explains how to set up and use Haply devices with Isaac Lab for robot teleoperation. | |
| .. _Haply Devices: https://haply.co/ | |
| Overview | |
| -------- | |
| Using Haply with Isaac Lab involves the following components: | |
| * **Isaac Lab** simulates the robot environment and streams contact forces back to the operator | |
| * **Haply Inverse3** provides 3-DOF position tracking and force feedback in the operator's workspace | |
| * **Haply VerseGrip** adds orientation sensing and button inputs for gripper control | |
| * **Haply SDK** manages WebSocket communication between Isaac Lab and the Haply hardware | |
| This guide will walk you through: | |
| * :ref:`haply-system-requirements` | |
| * :ref:`haply-installation` | |
| * :ref:`haply-device-setup` | |
| * :ref:`haply-running-demo` | |
| * :ref:`haply-troubleshooting` | |
| .. _haply-system-requirements: | |
| System Requirements | |
| ------------------- | |
| Hardware Requirements | |
| ~~~~~~~~~~~~~~~~~~~~~ | |
| * **Isaac Lab Workstation** | |
| * Ubuntu 22.04 or Ubuntu 24.04 | |
| * Hardware requirements for 200Hz physics simulation: | |
| * CPU: 8-Core Intel Core i7 or AMD Ryzen 7 (or higher) | |
| * Memory: 32GB RAM (64GB recommended) | |
| * GPU: RTX 3090 or higher | |
| * Network: Same local network as Haply devices for WebSocket communication | |
| * **Haply Devices** | |
| * Haply Inverse3 - Haptic device for position tracking and force feedback | |
| * Haply VerseGrip - Wireless controller for orientation and button inputs | |
| * Both devices must be powered on and connected to the Haply SDK | |
| Software Requirements | |
| ~~~~~~~~~~~~~~~~~~~~~ | |
| * Isaac Lab (follow the :ref:`installation guide <isaaclab-installation-root>`) | |
| * Haply SDK (provided by Haply Robotics) | |
| * Python 3.10+ | |
| * ``websockets`` Python package (automatically installed with Isaac Lab) | |
| .. _haply-installation: | |
| Installation | |
| ------------ | |
| 1. Install Isaac Lab | |
| ~~~~~~~~~~~~~~~~~~~~ | |
| Follow the Isaac Lab :ref:`installation guide <isaaclab-installation-root>` to set up your environment. | |
| The ``websockets`` dependency is automatically included in Isaac Lab's requirements. | |
| 2. Install Haply SDK | |
| ~~~~~~~~~~~~~~~~~~~~ | |
| Download the Haply SDK from the `Haply Devices`_ website. | |
| Install the SDK software and configure the devices. | |
| 3. Verify Installation | |
| ~~~~~~~~~~~~~~~~~~~~~~ | |
| Test that your Haply devices are detected by the Haply Device Manager. | |
| You should see both Inverse3 and VerseGrip as connected. | |
| .. _haply-device-setup: | |
| Device Setup | |
| ------------ | |
| 1. Physical Setup | |
| ~~~~~~~~~~~~~~~~~ | |
| * Place the Haply Inverse3 on a stable surface | |
| * Ensure the VerseGrip is charged and paired | |
| * Position yourself comfortably to reach the Inverse3 workspace | |
| * Keep the workspace clear of obstacles | |
| 2. Start Haply SDK | |
| ~~~~~~~~~~~~~~~~~~ | |
| Launch the Haply SDK according to Haply's documentation. The SDK typically: | |
| * Runs a WebSocket server on ``localhost:10001`` | |
| * Streams device data at 200Hz | |
| * Displays connection status for both devices | |
| 3. Test Communication | |
| ~~~~~~~~~~~~~~~~~~~~~ | |
| You can test the WebSocket connection using the following Python script: | |
| .. code:: python | |
| import asyncio | |
| import websockets | |
| import json | |
| async def test_haply(): | |
| uri = "ws://localhost:10001" | |
| async with websockets.connect(uri) as ws: | |
| response = await ws.recv() | |
| data = json.loads(response) | |
| print("Inverse3:", data.get("inverse3", [])) | |
| print("VerseGrip:", data.get("wireless_verse_grip", [])) | |
| asyncio.run(test_haply()) | |
| You should see device data streaming from both Inverse3 and VerseGrip. | |
| .. _haply-running-demo: | |
| Running the Demo | |
| ---------------- | |
| The Haply teleoperation demo showcases robot manipulation with force feedback using | |
| a Franka Panda arm. | |
| Basic Usage | |
| ~~~~~~~~~~~ | |
| .. tab-set:: | |
| :sync-group: os | |
| .. tab-item:: :icon:`fa-brands fa-linux` Linux | |
| :sync: linux | |
| .. code:: bash | |
| # Ensure Haply SDK is running | |
| ./isaaclab.sh -p scripts/demos/haply_teleoperation.py --websocket_uri ws://localhost:10001 --pos_sensitivity 1.65 | |
| .. tab-item:: :icon:`fa-brands fa-windows` Windows | |
| :sync: windows | |
| .. code:: batch | |
| REM Ensure Haply SDK is running | |
| isaaclab.bat -p scripts\demos\haply_teleoperation.py --websocket_uri ws://localhost:10001 --pos_sensitivity 1.65 | |
| The demo will: | |
| 1. Connect to the Haply devices via WebSocket | |
| 2. Spawn a Franka Panda robot and a cube in simulation | |
| 3. Map Haply position to robot end-effector position | |
| 4. Stream contact forces back to the Inverse3 for haptic feedback | |
| Controls | |
| ~~~~~~~~ | |
| * **Move Inverse3**: Controls the robot end-effector position | |
| * **VerseGrip Button A**: Open gripper | |
| * **VerseGrip Button B**: Close gripper | |
| * **VerseGrip Button C**: Rotate end-effector by 60° | |
| Advanced Options | |
| ~~~~~~~~~~~~~~~~ | |
| Customize the demo with command-line arguments: | |
| .. code:: bash | |
| # Use custom WebSocket URI | |
| ./isaaclab.sh -p scripts/demos/haply_teleoperation.py \ | |
| --websocket_uri ws://192.168.1.100:10001 | |
| # Adjust position sensitivity (default: 1.0) | |
| ./isaaclab.sh -p scripts/demos/haply_teleoperation.py \ | |
| --websocket_uri ws://localhost:10001 \ | |
| --pos_sensitivity 2.0 | |
| Demo Features | |
| ~~~~~~~~~~~~~ | |
| * **Workspace Mapping**: Haply workspace is mapped to robot reachable space with safety limits | |
| * **Inverse Kinematics**: Inverse Kinematics (IK) computes joint positions for desired end-effector pose | |
| * **Force Feedback**: Contact forces from end-effector sensors are sent to Inverse3 for haptic feedback | |
| .. _haply-troubleshooting: | |
| Troubleshooting | |
| --------------- | |
| No Haptic Feedback | |
| ~~~~~~~~~~~~~~~~~~ | |
| **Problem**: No haptic feedback felt on Inverse3 | |
| Solutions: | |
| * Verify Inverse3 is the active device in Haply SDK | |
| * Check contact forces are non-zero in simulation (try grasping the cube) | |
| * Ensure ``limit_force`` is not set too low (default: 2.0N) | |
| Next Steps | |
| ---------- | |
| * **Customize the demo**: Modify the workspace mapping or add custom button behaviors | |
| * **Implement your own controller**: Use :class:`~isaaclab.devices.HaplyDevice` in your own scripts | |
| For more information on device APIs, see :class:`~isaaclab.devices.HaplyDevice` in the API documentation. | |