mujoco-ar-viewer 0.4.0

AR visualization for MuJoCo physics simulations

MuJoCo AR Viewer

A Python package for visualizing MuJoCo physics simulations in Augmented Reality using Apple Vision Pro and other AR devices.

Installation

Python API

pip install mujoco-ar-viewer

To use automatic MuJoCo XML-to-USD conversion feature (supported only on Linux and Windows via mujoco-usd-converter from project Newton), use:

pip install "mujoco-ar-viewer[usd]"

VisionOS App

Open App Store on VisionOS, and search for mujocoARViewer.

Quick Start

from mujoco_arviewer import MJARViewer
import mujoco

# path to mujoco XML 
xml_path = "path/to/your/model.xml"

# Set up your MuJoCo simulation
model = mujoco.MjModel.from_xml_path(xml_path)
data = mujoco.MjData(model)

# Initialize the AR viewer with your device's IP
# Device's IP will be presented when you launch the app 
viewer = MJARViewer(avp_ip="192.168.1.100", \
                    enable_hand_tracking = True)
# Send a MuJoCo model to the AR device
# (Linux Only) it will automatically convert to USD
viewer.load_scene(xml_path) 
# Register the model and data with the viewer
viewer.register(model, data)

# Simulation loop
while True:
    # (Optional) access hand tracking results 
    hand_tracking = viewer.get_hand_tracking()  
    # (Optional) map hand tracking to mujoco ctrl 
    data.ctrl = hand2ctrl(hand_tracking)

    # Step the simulation 
    mujoco.mj_step(model, data)
    # Sync with AR device 
    viewer.sync()

Example Use cases

1. Teleoperation in AR

   This repository is an open-sourced, developer friendly package that powers DART. You can check out some manipulation environments we've made and teleoperation codes here.

   git clone git@github.com:Improbable-AI/mujoco-manipulation-envs.git
   cd mujoco-manipulation-envs
   python teleop.py --ip 10.31.191.37 --task reorient_esh --ver test --attach_to 0 -0.1 0.8 90
   

2. Just bring your robot in mujoco world to real life in AR

   It's just better to watch robots doing things in an AR environment rather than a 2D mujoco viewer. You get a better sense of how the robot's behaving in 3D space.

   mjpython examples/replay.py  --viewer ar
   

Recommended Read

Where to attach your mujoco world frame in AR

Since this is a viewer in augmented reality (which by defintion, blends your simulated environment with your real world environment), deciding where to attach your simulation scene's world frame in your actual physical space in real world is important. You can determine this by passing in attach_to as an argument either by

1. a 7-dim vector of xyz translation and scalar-first quaternion representation (i.e., [x,y,z,qw,qx,qy,qz])
2. a 4-dim vector of xyz translation and rotation around z-axis, specified as a degree. (i.e., [x,y,z,zrot])

   Assuming you have a Z-UP convention for your mujoco environment, this second option might be enough.

# attach the `world` frame 0.3m above the visionOS origin, rotating 90 degrees around z-axis. 
viewer.load_scene(scene_path, attach_to=[0, 0, 0.3, 90]) 

1. Default Setting: When viewer.load_scene is called without attach_to specified, it attahces the simualtion scene to the origin frame registered inside VisionOS. VisionOS automatically detects the physical ground of your surrounding using its sensors and defines the origin on the ground. For instance, if you're standing, visionOS will attach origin frame right below your feet. If you're sitting down, it's gonna be right below your chair. For most humanoid/Quadruped Locomotion scenes or mobile manipulation scenes, for instance, the world frame is often defined on a surface that can be considered as a "ground". Then you don't need no offset, at least for the z-axis. Based on your use cases, you might still want to some offset for x and y translation, or rotation around z-axis.

2. Custom Setting: For many other cases, you might want to define a custom position to attach the world frame of a simulation scene. For most Table-top Manipulation Scenes, for instance, if your XML file is designed for table-top manipulation using fixed-base manipulators with your world frame defined on the surface of the table, you might want to attach the world frame with a slight z-axis offset in your AR environment.

Examples from MuJoCo Menagerie	Unitree G1 XML	Google Robot XML	ALOHA 2 XML
Visualization of world frame
	world frame is attached on a "ground".	world frame is attached on a "ground".	world frame is attached on a "table".
Recommended attach_to	Default Setting	Default Setting	Offset in z-axis, that can bring up the table surface to reasonable height in your real world.

FAQ

1. Why did you develop this package?

   Collecting robot demonstrations in simulation is often useful and necessary for conducting research on robot learning pipelines. However, if you try to do that by watching a 2D viewer of a simulation scene on a 2D monitor, you quickly run into limitations since you really have no accurate perception of depth. Presenting a simulation scene as an AR environment offers a nice solution. Consider this as a 3D-lifted version of your existing 2D mujoco.viewer.

2. Why is USD conversion only supported on Linux and Windows, and how should I use this for macOS then?

   Limited macOS compatibility for automatic XML-to-USD conversion comes from mujoco-usd-converter, which internally relies on OpenUSD Exchange SDK which only supports Linux and Windows at this moment. For now, if you want to use this software on macOS, you can separately convert your XML into USD using mujoco-usd-converter and bring the USD file over to macOS. Then, you instead of specifying a path to XML file, you can specify a path to USD file when calling load_scene:

   # instead of passing in a path to XML, pass in a path to converted USDZ 
   # convert XML to USDZ with any Linux system you have access to 
   viewer.load_scene("/path/to/your/converted/scene.usdz")
   

3. What axis convention does hand-tracking data stream use?

   It uses the convention defined in VisionProTeleop.

   

4. Are there any limitations? When does it fail to load the model properly?

   We've recently ran sanity checking on every models on mujoco-menagerie, and these are the results.

   benchmark_on_mujoco_menagerie.md

License

MIT License