Importing a New Asset ===================== .. currentmodule:: isaaclab NVIDIA Omniverse relies on the Universal Scene Description (USD) file format to import and export assets. USD is an open source file format developed by Pixar Animation Studios. It is a scene description format optimized for large-scale, complex data sets. While this format is widely used in the film and animation industry, it is less common in the robotics community. To this end, NVIDIA has developed various importers that allow you to import assets from other file formats into USD. These importers are available as extensions to Omniverse Kit: * **URDF Importer** - Import assets from URDF files. * **MJCF Importer** - Import assets from MJCF files. * **Mesh Importer** - Import assets from various file formats, including OBJ, FBX, STL, and glTF. The recommended workflow from NVIDIA is to use the above importers to convert the asset into its USD representation. Once the asset is in USD format, you can use the Omniverse Kit to edit the asset and export it to other file formats. Isaac Sim includes these importers by default. They can also be enabled manually in Omniverse Kit. An important note to use assets for large-scale simulation is to ensure that they are in `instanceable`_ format. This allows the asset to be efficiently loaded into memory and used multiple times in a scene. Otherwise, the asset will be loaded into memory multiple times, which can cause performance issues. For more details on instanceable assets, please check the Isaac Sim `documentation`_. Using URDF Importer ------------------- For using the URDF importer in the GUI, please check the documentation at `URDF importer`_. For using the URDF importer from Python scripts, we include a utility tool called ``convert_urdf.py``. This script creates an instance of :class:`~sim.converters.UrdfConverterCfg` which is then passed to the :class:`~sim.converters.UrdfConverter` class. .. note:: The URDF importer was upgraded to version 3.0 in Isaac Sim 6, replacing the previous C++ binding-based API with a Python pipeline (``urdf-usd-converter``). Assets are now made instanceable by default — ``make_instanceable`` is no longer a configuration option. See the :doc:`/source/migration/migrating_to_isaaclab_3-0` for a full list of breaking changes. The URDF importer has various configuration parameters that can be set to control the behavior of the importer. The default values for the importer's configuration parameters are specified are in the :class:`~sim.converters.UrdfConverterCfg` class, and they are listed below. We made a few commonly modified settings to be available as command-line arguments when calling the ``convert_urdf.py``, and they are marked with ``*`` in the list. For a comprehensive list of the configuration parameters, please check the the documentation at `URDF importer`_. * :attr:`~sim.converters.UrdfConverterCfg.fix_base` * - Whether to fix the base of the robot. This depends on whether you have a floating-base or fixed-base robot. The command-line flag is ``--fix-base`` where when set, the importer will fix the base of the robot, otherwise it will default to floating-base. * :attr:`~sim.converters.UrdfConverterCfg.root_link_name` - The link on which the PhysX articulation root is placed. **Deprecated in URDF importer 3.0** — this option is ignored. * :attr:`~sim.converters.UrdfConverterCfg.merge_fixed_joints` * - Whether to merge the fixed joints. Usually, this should be set to ``True`` to reduce the asset complexity. The command-line flag is ``--merge-joints`` where when set, the importer will merge the fixed joints, otherwise it will default to not merging the fixed joints. * :attr:`~sim.converters.UrdfConverterCfg.joint_drive` - The configuration for the joint drives on the robot. * :attr:`~sim.converters.UrdfConverterCfg.JointDriveCfg.drive_type` - The drive type for the joints. This can be either ``"acceleration"`` or ``"force"``. We recommend using ``"force"`` for most cases. * :attr:`~sim.converters.UrdfConverterCfg.JointDriveCfg.target_type` - The target type for the joints. This can be either ``"none"``, ``"position"``, or ``"velocity"``. We recommend using ``"position"`` for most cases. Setting this to ``"none"`` will disable the drive and set the joint gains to 0.0. * :attr:`~sim.converters.UrdfConverterCfg.JointDriveCfg.gains` - The drive stiffness and damping gains for the joint. We support two ways to set the gains: * :attr:`~sim.converters.UrdfConverterCfg.JointDriveCfg.PDGainsCfg` - To directly set the stiffness and damping. * :attr:`~sim.converters.UrdfConverterCfg.JointDriveCfg.NaturalFrequencyGainsCfg` - To set the gains using the desired natural frequency response of the system. **Deprecated in URDF importer 3.0** — use ``PDGainsCfg`` instead. For more detailed information on the configuration parameters, please check the documentation for :class:`~sim.converters.UrdfConverterCfg`. Example Usage ~~~~~~~~~~~~~ In this example, we use the pre-processed URDF file of the ANYmal-D robot. To check the pre-process URDF, please check the file the `anymal.urdf`_. The main difference between the pre-processed URDF and the original URDF are: * We removed the ```` tag from the URDF. This tag is not supported by the URDF importer. * We removed the ```` tag from the URDF. This tag is not supported by the URDF importer. * We removed various collision bodies from the URDF to reduce the complexity of the asset. * We changed all the joint's damping and friction parameters to ``0.0``. This ensures that we can perform effort-control on the joints without PhysX adding additional damping. * The ```` URDF tag is **no longer supported** in URDF importer 3.0. Fixed joint merging is now a Python pre-processing step that merges all fixed joints when ``merge_fixed_joints`` is enabled. If you need to preserve a specific fixed joint, disable ``merge_fixed_joints`` entirely or restructure the URDF to use a non-fixed joint type (e.g. revolute with zero-range limits). The following shows the steps to clone the repository and run the converter: .. tab-set:: :sync-group: os .. tab-item:: :icon:`fa-brands fa-linux` Linux :sync: linux .. code-block:: bash # clone a repository with URDF files git clone git@github.com:isaac-orbit/anymal_d_simple_description.git # go to top of the Isaac Lab repository cd IsaacLab # run the converter ./isaaclab.sh -p scripts/tools/convert_urdf.py \ ../anymal_d_simple_description/urdf/anymal.urdf \ source/isaaclab_assets/data/Robots/ANYbotics/ \ --merge-joints \ --joint-stiffness 0.0 \ --joint-damping 0.0 \ --joint-target-type none .. tab-item:: :icon:`fa-brands fa-windows` Windows :sync: windows .. code-block:: batch :: clone a repository with URDF files git clone git@github.com:isaac-orbit/anymal_d_simple_description.git :: go to top of the Isaac Lab repository cd IsaacLab :: run the converter isaaclab.bat -p scripts\tools\convert_urdf.py ^ ..\anymal_d_simple_description\urdf\anymal.urdf ^ source\isaaclab_assets\data\Robots\ANYbotics\ ^ --merge-joints ^ --joint-stiffness 0.0 ^ --joint-damping 0.0 ^ --joint-target-type none Executing the above script will create a USD file inside the ``source/isaaclab_assets/data/Robots/ANYbotics/anymal/`` directory (the subdirectory name is derived automatically from the robot name in the URDF): * ``anymal.usda`` - This is the main asset file. To run the script headless, you can add the ``--headless`` flag. This will not open the GUI and exit the script after the conversion is complete. You can press play on the opened window to see the asset in the scene. The asset should fall under gravity. If it blows up, then it might be that you have self-collisions present in the URDF. .. figure:: ../_static/tutorials/tutorial_convert_urdf.jpg :align: center :figwidth: 100% :alt: result of convert_urdf.py Using MJCF Importer ------------------- Similar to the URDF Importer, the MJCF Importer also has a GUI interface. Please check the documentation at `MJCF importer`_ for more details. For using the MJCF importer from Python scripts, we include a utility tool called ``convert_mjcf.py``. This script creates an instance of :class:`~sim.converters.MjcfConverterCfg` which is then passed to the :class:`~sim.converters.MjcfConverter` class. The default values for the importer's configuration parameters are specified in the :class:`~sim.converters.MjcfConverterCfg` class. The configuration parameters are listed below. We made a few commonly modified settings to be available as command-line arguments when calling the ``convert_mjcf.py``, and they are marked with ``*`` in the list. For a comprehensive list of the configuration parameters, please check the the documentation at `MJCF importer`_. .. note:: The MJCF importer was rewritten in Isaac Sim 5.0 to use the ``mujoco-usd-converter`` library. Settings such as ``fix_base``, ``import_sites``, ``import_inertia_tensor``, and ``make_instanceable`` are no longer needed — the converter now handles these automatically based on the MJCF file content. * :attr:`~sim.converters.MjcfConverterCfg.merge_mesh` * - Whether to merge meshes where possible to optimize the model. The command-line flag is ``--merge-mesh``. * :attr:`~sim.converters.MjcfConverterCfg.collision_from_visuals` * - Whether to generate collision geometry from visual geometries. The command-line flag is ``--collision-from-visuals``. * :attr:`~sim.converters.MjcfConverterCfg.collision_type` * - Type of collision geometry to use (e.g. ``"default"``, ``"Convex Hull"``, ``"Convex Decomposition"``). The command-line flag is ``--collision-type``. * :attr:`~sim.converters.MjcfConverterCfg.self_collision` * - Whether to activate self-collisions between links of the articulation. The command-line flag is ``--self-collision``. * :attr:`~sim.converters.MjcfConverterCfg.import_physics_scene` * - Import physics scene properties (gravity, time step, etc.) from the MJCF file. Defaults to ``False``. The command-line flag is ``--import-physics-scene``. Example Usage ~~~~~~~~~~~~~ In this example, we use the MuJoCo model of the Unitree's H1 humanoid robot in the `mujoco_menagerie`_. The following shows the steps to clone the repository and run the converter: .. tab-set:: :sync-group: os .. tab-item:: :icon:`fa-brands fa-linux` Linux :sync: linux .. code-block:: bash # clone a repository with MJCF files git clone git@github.com:google-deepmind/mujoco_menagerie.git # go to top of the Isaac Lab repository cd IsaacLab # run the converter ./isaaclab.sh -p scripts/tools/convert_mjcf.py \ ../mujoco_menagerie/unitree_h1/h1.xml \ source/isaaclab_assets/data/Robots/Unitree/h1.usd \ --merge-mesh .. tab-item:: :icon:`fa-brands fa-windows` Windows :sync: windows .. code-block:: batch :: clone a repository with MJCF files git clone git@github.com:google-deepmind/mujoco_menagerie.git :: go to top of the Isaac Lab repository cd IsaacLab :: run the converter isaaclab.bat -p scripts\tools\convert_mjcf.py ^ ..\mujoco_menagerie\unitree_h1\h1.xml ^ source\isaaclab_assets\data\Robots\Unitree\h1.usd ^ --merge-mesh Executing the above script will create the USD file inside the ``source/isaaclab_assets/data/Robots/Unitree/`` directory: * ``h1.usd`` - This is the converted USD asset file. .. figure:: ../_static/tutorials/tutorial_convert_mjcf.jpg :align: center :figwidth: 100% :alt: result of convert_mjcf.py Using Mesh Importer ------------------- Omniverse Kit includes the mesh converter tool that uses the ASSIMP library to import assets from various mesh formats (e.g. OBJ, FBX, STL, glTF, etc.). The asset converter tool is available as an extension to Omniverse Kit. Please check the `asset converter`_ documentation for more details. However, unlike Isaac Sim's URDF and MJCF importers, the asset converter tool does not support creating instanceable assets. This means that the asset will be loaded into memory multiple times if it is used multiple times in a scene. Thus, we include a utility tool called ``convert_mesh.py`` that uses the asset converter tool to import the asset and then converts it into an instanceable asset. Internally, this script creates an instance of :class:`~sim.converters.MeshConverterCfg` which is then passed to the :class:`~sim.converters.MeshConverter` class. Since the mesh file does not contain any physics information, the configuration class accepts different physics properties (such as mass, collision shape, etc.) as input. Please check the documentation for :class:`~sim.converters.MeshConverterCfg` for more details. Example Usage ~~~~~~~~~~~~~ We use an OBJ file of a cube to demonstrate the usage of the mesh converter. The following shows the steps to clone the repository and run the converter: .. tab-set:: :sync-group: os .. tab-item:: :icon:`fa-brands fa-linux` Linux :sync: linux .. code-block:: bash # clone a repository with URDF files git clone git@github.com:NVIDIA-Omniverse/IsaacGymEnvs.git # go to top of the Isaac Lab repository cd IsaacLab # run the converter ./isaaclab.sh -p scripts/tools/convert_mesh.py \ ../IsaacGymEnvs/assets/trifinger/objects/meshes/cube_multicolor.obj \ source/isaaclab_assets/data/Props/CubeMultiColor/cube_multicolor.usd \ --make-instanceable \ --collision-approximation convexDecomposition \ --mass 1.0 .. tab-item:: :icon:`fa-brands fa-windows` Windows :sync: windows .. code-block:: batch :: clone a repository with URDF files git clone git@github.com:NVIDIA-Omniverse/IsaacGymEnvs.git :: go to top of the Isaac Lab repository cd IsaacLab :: run the converter isaaclab.bat -p scripts\tools\convert_mesh.py ^ ..\IsaacGymEnvs\assets\trifinger\objects\meshes\cube_multicolor.obj ^ source\isaaclab_assets\data\Props\CubeMultiColor\cube_multicolor.usd ^ --make-instanceable ^ --collision-approximation convexDecomposition ^ --mass 1.0 You may need to press 'F' to zoom in on the asset after import. Similar to the URDF and MJCF converter, executing the above script will create two USD files inside the ``source/isaaclab_assets/data/Props/CubeMultiColor/`` directory. Additionally, if you press play on the opened window, you should see the asset fall down under the influence of gravity. * If you do not set the ``--mass`` flag, then no rigid body properties will be added to the asset. It will be imported as a static asset. * If you also do not set the ``--collision-approximation`` flag, then the asset will not have any collider properties as well and will be imported as a visual asset. .. figure:: ../_static/tutorials/tutorial_convert_mesh.jpg :align: center :figwidth: 100% :alt: result of convert_mesh.py .. _instanceable: https://openusd.org/dev/api/_usd__page__scenegraph_instancing.html .. _documentation: https://docs.isaacsim.omniverse.nvidia.com/latest/isaac_lab_tutorials/tutorial_instanceable_assets.html .. _MJCF importer: https://docs.isaacsim.omniverse.nvidia.com/latest/importer_exporter/ext_isaacsim_asset_importer_mjcf.html .. _URDF importer: https://docs.isaacsim.omniverse.nvidia.com/latest/importer_exporter/ext_isaacsim_asset_importer_urdf.html .. _anymal.urdf: https://github.com/isaac-orbit/anymal_d_simple_description/blob/master/urdf/anymal.urdf .. _asset converter: https://docs.omniverse.nvidia.com/extensions/latest/ext_asset-converter.html .. _mujoco_menagerie: https://github.com/google-deepmind/mujoco_menagerie/tree/main/unitree_h1