Repository containing URDF and SDF models of iCub humanoid robots.
The model contained in this repo are licensed under the Creative Commons Attribution-ShareAlike 4.0 International License (CC BY-SA 4.0) .
You can easily install the icub-models
and the C++ and Python helper libraries via conda-forge
using the following command
conda install -c conda-forge icub-models
If you are not familiar with conda or conda-forge, you can read an introduction document in conda-forge overview.
If you use apt to install your dependencies or if you are install icub-models
for use as part of iCub humanoid robot software installation, you may want to install icub-models through the robotology-superbuild, an easy way to download, compile and install the robotology software on multiple operating systems, using the CMake build system and its extension YCM. icub-models
is always installed by robotology-superbuild
.
If you want to build icub-models directly from source of from the repo, you can check the documentation in build-from-source.md
.
The models contained in icub-models
are listed in the following table. Most models are identified by a name like iCub<Something><Number>
, that we refer as YARP_ROBOT_NAME
. Historically, on iCub robot setups, the YARP_ROBOT_NAME
env variable identified the specific robot to use.
YARP_ROBOT_NAME |
package:/ -URI |
Notes |
---|---|---|
iCubErzelli02 |
package://iCub/robots/iCubErzelli02/model.urdf |
v2.5.5 |
iCubGazeboV2_5 |
package://iCub/robots/iCubGazeboV2_5/model.urdf |
v2.5.5, joint damping, and inertias of some links increased in a non realistic way to run smoothly in Gazebo Classic (ODE). |
iCubGazeboV2_5_visuomanip |
package://iCub/robots/iCubGazeboV2_5/model.urdf |
v2.5.5 with hands and eyes, base_link fixed to the ground and legs disabled. |
iCubGazeboV2_5_KIT_007 |
package://iCub/robots/iCubGazeboV2_5_KIT_007/model.urdf |
v2.5 + KIT_007 with backpack, joint damping, and inertias of some links increased in a non realistic way to run smoothly in Gazebo Classic (ODE). |
iCubGazeboV2_6 |
package://iCub/robots/iCubGazeboV2_6/model.urdf |
v2.6 with joint damping, and inertias of some links increased in a non realistic way to run smoothly in Gazebo Classic (ODE). |
iCubGazeboV2_7 |
package://iCub/robots/iCubGazeboV2_7/model.urdf |
v2.7 with joint damping, and inertias of some links increased in a non realistic way to run smoothly in Gazebo Classic (ODE). |
iCubGenova02 |
package://iCub/robots/iCubGenova02/model.urdf |
v2.5.5 + KIT_007 with backpack |
iCubGenova03 |
package://iCub/robots/iCubGenova03/model.urdf |
v2 with legs v1 and feet v2.5 |
iCubGenova11 |
package://iCub/robots/iCubGenova11/model.urdf |
v2.7 |
iCubLisboa01 |
package://iCub/robots/iCubLisboa01/model.urdf |
v1 with head v2 |
iCubNancy01 |
package://iCub/robots/iCubNancy01/model.urdf |
v2.5 with arms v1 and head v2 |
iCubWaterloo11 |
package://iCub/robots/iCubWaterloo11/model.urdf |
v2.7 |
Models contained in icub-models
can be used using the package:/
-URI listed in previous table. This URI always follow the structure package://iCub/robots/<name>/model.urdf
, where <name>
is iCubErzelli02
, iCubGazeboV2_5
or a similar identifier.
Note that only the models that are known to work fine with the default physics engine settings of Classic Gazebo (the one that start with iCubGazebo
)
are installed. If you want to make available in Gazebo all the models, enable the ICUB_MODELS_INSTALL_ALL_GAZEBO_MODELS
CMake option.
To include the model in a Classic Gazebo world, use the following SDF:
<include>
<pose>0 0 0.5 0 -0.1 3.14</pose>
<uri>model://iCubGazeboV2_5</uri>
</include>
The model:/
string is used to include the model, following the structure model://<name>
, where <name>
is iCubGazeboV2_5
, iCubGazeboV2_7
or a similar identifier. Note that you can also use the structure model://iCub/robots/<name>
.
In order to use these models in c++
application you can exploit the icub-models
library.
icub-models
provides native CMake
support which allows the library to be easily used in CMake
projects.
icub-models exports a CMake target called icub-models::icub-models
which can be imported using the find_package
CMake command and used by calling target_link_libraries
as in the following example:
cmake_minimum_required(VERSION 3.5)
project(myproject)
find_package(icub-models REQUIRED)
add_executable(example example.cpp)
target_link_libraries(example icub-models::icub-models)
The example.cpp
will contains
#include <iCubModels/iCubModels.h>
#include <iostream>
int main()
{
std::cout << "Models have been installed in: " << iCubModels::getModelsPath() << std::endl;
std::cout << "Available robots: " << std::endl;
for (const auto& robot : iCubModels::getRobotNames())
{
std::cout << " - " << robot << ": " << iCubModels::getModelFile(robot) << std::endl;
}
return EXIT_SUCCESS;
}
Note: The ABI and the API of the C++ helper library has breaking changes only at major releases of the icub-models
package.
To find the model in C++ using YARP, you just need to make sure that YARP_ROBOT_NAME
environment variable is set, and search for the model.urdf
file:
std::string modelAbsolutePath =yarp::os::ResourceFinder::getResourceFinderSingleton().findFileByName("model.urdf");
The following script can be used to locate the models
import icub_models
print(f"Models have been installed in: {icub_models.get_models_path()}")
print(f"Available robots: {icub_models.get_robot_names()}")
for robot_name in icub_models.get_robot_names():
print(f"{robot_name}: {icub_models.get_model_file(robot_name)}")
First of all, make sure that you installed resolve-robotics-uri-py
python library. Then, you can find the icub-models
models using package:/
or model:/
URIs, as you would use with Gazebo or ROS:
absolute_path = resolve_robotics_uri_py.resolve_robotics_uri("package://iCub/robots/iCubGazeboV2_7/model.urdf")
or
absolute_path = resolve_robotics_uri_py.resolve_robotics_uri("model://iCub/robots/iCubGazeboV2_7/model.urdf")
The iCub robot root frame
is defined as x-backward
, meaning that the x-axis points behind the robot. Nevertheless, in the robotics community, sometimes the root frame of a robot is defined as x-forward
. As a consequence, to use the iCub models with software developed for the x-forward
configuration (e.g. IHMC-ORS), might be necessary to quickly update the root frame orientation.
For this purpose, locate the joint <joint name="base_fixed_joint" type="fixed">
in the URDF
model and perform the following substitution in the origin
section:
- <origin xyz="0 0 0" rpy="0 -0 0"/>
+ <origin xyz="0 0 0" rpy="0 -0 3.14159265358979323846"/>