Package Summary
Tags | No category tags. |
Version | 1.0.0 |
License | GPLv2 |
Build type | CATKIN |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://github.com/lagadic/visp_ros.git |
VCS Type | git |
VCS Version | master |
Last Updated | 2022-01-07 |
Dev Status | UNMAINTAINED |
CI status | No Continuous Integration |
Released | UNRELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- Fabien Spindler
Authors
- Francois Pasteau
- Fabien Spindler
- Gatien Gaumerais
- Alexander Oliva
visp_ros
visp_ros
is an extension of ViSP library developed by Inria Rainbow team. While ViSP is independent to ROS, in visp_ros
we benefit from ROS features.
visp_ros
is compatible with ROS kinetic, melodic and noetic.
visp_ros
contains a library:
- with new C++ classes (vpROSGrabber, vpROSRobot, vpROSRobotPioneer, vpROSRobotFrankaCoppeliasim) that could be used like usual ViSP classes. They are based on ROS, but to use them there is no need to know so much about ROS;
- that makes possible to use ROS in a transparent way, either by building classical binaries without catkin, either by building ROS nodes with catkin but without the need to write ROS specific code;
- where creating a ROS node out of ViSP becomes simple.
visp_ros
contains also a set of ROS nodes that allow to control specific hardware such as for the moment:
- robots that can be controlled only in our lab due to proprietary drivers: Afma6 gantry robot, Biclops PT head, ADEPT Viper 650 and 850 robots described here;
- other robots that anyone can buy and use with open-source drivers interfaced in ViSP: Pioneer mobile robot, Parrot bebop2 drone.
visp_ros
contains also FrankaSim a simulator for a Franka Panda robot using CoppeliaSim. The simulation is a physical simulation with a model that has been accurately identified from a real Franka robot. If you are using this simulator we would appreciate that you cite this paper:
C. Gaz, M. Cognetti, A. Oliva, P. Robuffo Giordano, A. De Luca, Dynamic Identification of the Franka Emika Panda Robot With Retrieval of Feasible Parameters Using Penalty-Based Optimization. IEEE RA-L, 2019.
1. Installation
1.1. Install dependencies
Either you can install dependencies from existing packages, either from source.
Install dependencies from packages
Install ros-<version>-visp
and ros-<version>-vision_visp
packages that match your ros distribution (kinetic, melodic, noetic), as for example:
$ sudo apt-get install ros-melodic-visp ros-melodic-vision_visp
Once done, jump to section 1.2.
Install dependencies from source
If you want to use the nodes that allow to control real robots such as Biclops PT head, Viper 650, Viper 850, Afma4, Afma6 or Franka robots, you need to build ViSP from source and install ViSP in /opt/ros/<version>
in order to overwrite any version that was already installed from packages. There are a couple of tutorials that may help. Below we recall the main instructions
- Install first ViSP required dependencies: OpenCV, X11…
$ sudo apt-get install libopencv-dev libx11-dev liblapack-dev libeigen3-dev libv4l-dev \
libzbar-dev libpthread-stubs0-dev libjpeg-dev libpng-dev
- If you want to simulate Panda robot using FrankaSim as explained in this tutorial, install also Orocos-kdl and PCL
$ sudo apt-get install liborocos-kdl-dev libpcl-dev
-
If you want to control a real Panda robot equipped with a Realsense camera as explained in this tutorial, you need to follow this tutorial to install libfranka and librealsense
-
If you want to control a Parrot bebop2 drone follow this tutorial that explain which are the required dependencies
-
Then get, build and install ViSP
$ cd visp-ws
$ git clone https://github.com/lagadic/visp.git
$ mkdir visp-build-ros; cd visp-build-ros
$ cmake -DCMAKE_INSTALL_PREFIX=/opt/ros/$ROS_DISTRO ../visp
$ make -j4; sudo make install
- Then get
vision_visp
meta package that containsvisp-bridge
package that is avisp_ros
package dependency:
$ cd ~/catkin_ws/src
$ source /opt/ros/<version>/setup.bash
$ git clone https://github.com/lagadic/vision_visp.git -b $ROS_DISTRO
1.2. Get visp_ros source
Get visp_ros
package:
$ git clone https://github.com/lagadic/visp_ros.git
1.3. Build visp_ros package
To build visp_ros
package run:
$ cd ~/catkin_ws
$ catkin_make -DCMAKE_BUILD_TYPE=Release --pkg visp_ros
1.4. Build documentation and tutorials
There is the documentation available in ROS wiki page: http://wiki.ros.org/visp_ros
It is also possible to build the package documentation from your own:
$ cd ~/catkin_ws
$ rosdoc_lite src/visp_ros
Documentation is available in ~/catkin_ws/doc/html/index.html
.
This documentation is a local version of the documentation available here.
2. Usage
See https://wiki.ros.org/visp_ros
Wiki Tutorials
Package Dependencies
Deps | Name |
---|---|
message_generation | |
catkin | |
image_view | |
message_runtime | |
usb_cam | |
roscpp | |
rospy | |
std_msgs | |
geometry_msgs | |
sensor_msgs | |
cv_bridge | |
image_geometry | |
image_transport | |
visp_bridge | |
tf | |
nodelet | |
kdl_parser |
System Dependencies
Name |
---|
liborocos-kdl-dev |
Dependant Packages
Launch files
- launch/biclops.launch
- launch/bebop_servo_nodelet.launch
- This file launches drone driver and visual servoing nodelets You have can then make the drone take off or land by publishing corresponding messages : "rostopic pub -\-once /bebop/takeoff std_msgs/Empty" for takeoff "rostopic pub -\-once /bebop/land std_msgs/Empty" for landing (without "\")
-
- namespace_bebop [default: bebop]
- ip [default: 192.168.42.1]
- launch/bebop_servo_node.launch
- This file launches drone driver and visual servoing nodes You have can then make the drone take off or land by publishing corresponding messages : "rostopic pub -\-once /bebop/takeoff std_msgs/Empty" for takeoff "rostopic pub -\-once /bebop/land std_msgs/Empty for" landing (without "\")
-
- namespace_bebop [default: bebop]
- ip [default: 192.168.42.1]
- launch/blob_tracker.launch
- -*- xml -*-
-
- launch/demo_pbvs_blob_afma6.launch
- -*- xml -*-
-
- launch/afma6.launch
- launch/viper850.launch
- launch/viper650.launch
- launch/bebop_teleop_iv.launch
- This file launches drone driver and visual servoing nodelets You have can then make the drone take off or land by publishing corresponding messages : "rostopic pub -\-once /bebop/takeoff std_msgs/Empty" for takeoff "rostopic pub -\-once /bebop/land std_msgs/Empty" for landing (without "\")
-
- namespace_bebop [default: bebop]
- ip [default: 192.168.42.1]
- joy_dev [default: /dev/input/js0]
- joy_config [default: log710]
- tutorial/grabber/ros/camera-usb.launch
- -*- xml -*-
-
- tutorial/grabber/ros/camera-firewire.launch
- -*- xml -*-
-
Services
Plugins
Recent questions tagged visp_ros at Robotics Stack Exchange
Package Summary
Tags | No category tags. |
Version | 1.0.0 |
License | GPLv2 |
Build type | CATKIN |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://github.com/lagadic/visp_ros.git |
VCS Type | git |
VCS Version | master |
Last Updated | 2022-01-07 |
Dev Status | UNMAINTAINED |
CI status | No Continuous Integration |
Released | UNRELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- Fabien Spindler
Authors
- Francois Pasteau
- Fabien Spindler
- Gatien Gaumerais
- Alexander Oliva
visp_ros
visp_ros
is an extension of ViSP library developed by Inria Rainbow team. While ViSP is independent to ROS, in visp_ros
we benefit from ROS features.
visp_ros
is compatible with ROS kinetic, melodic and noetic.
visp_ros
contains a library:
- with new C++ classes (vpROSGrabber, vpROSRobot, vpROSRobotPioneer, vpROSRobotFrankaCoppeliasim) that could be used like usual ViSP classes. They are based on ROS, but to use them there is no need to know so much about ROS;
- that makes possible to use ROS in a transparent way, either by building classical binaries without catkin, either by building ROS nodes with catkin but without the need to write ROS specific code;
- where creating a ROS node out of ViSP becomes simple.
visp_ros
contains also a set of ROS nodes that allow to control specific hardware such as for the moment:
- robots that can be controlled only in our lab due to proprietary drivers: Afma6 gantry robot, Biclops PT head, ADEPT Viper 650 and 850 robots described here;
- other robots that anyone can buy and use with open-source drivers interfaced in ViSP: Pioneer mobile robot, Parrot bebop2 drone.
visp_ros
contains also FrankaSim a simulator for a Franka Panda robot using CoppeliaSim. The simulation is a physical simulation with a model that has been accurately identified from a real Franka robot. If you are using this simulator we would appreciate that you cite this paper:
C. Gaz, M. Cognetti, A. Oliva, P. Robuffo Giordano, A. De Luca, Dynamic Identification of the Franka Emika Panda Robot With Retrieval of Feasible Parameters Using Penalty-Based Optimization. IEEE RA-L, 2019.
1. Installation
1.1. Install dependencies
Either you can install dependencies from existing packages, either from source.
Install dependencies from packages
Install ros-<version>-visp
and ros-<version>-vision_visp
packages that match your ros distribution (kinetic, melodic, noetic), as for example:
$ sudo apt-get install ros-melodic-visp ros-melodic-vision_visp
Once done, jump to section 1.2.
Install dependencies from source
If you want to use the nodes that allow to control real robots such as Biclops PT head, Viper 650, Viper 850, Afma4, Afma6 or Franka robots, you need to build ViSP from source and install ViSP in /opt/ros/<version>
in order to overwrite any version that was already installed from packages. There are a couple of tutorials that may help. Below we recall the main instructions
- Install first ViSP required dependencies: OpenCV, X11…
$ sudo apt-get install libopencv-dev libx11-dev liblapack-dev libeigen3-dev libv4l-dev \
libzbar-dev libpthread-stubs0-dev libjpeg-dev libpng-dev
- If you want to simulate Panda robot using FrankaSim as explained in this tutorial, install also Orocos-kdl and PCL
$ sudo apt-get install liborocos-kdl-dev libpcl-dev
-
If you want to control a real Panda robot equipped with a Realsense camera as explained in this tutorial, you need to follow this tutorial to install libfranka and librealsense
-
If you want to control a Parrot bebop2 drone follow this tutorial that explain which are the required dependencies
-
Then get, build and install ViSP
$ cd visp-ws
$ git clone https://github.com/lagadic/visp.git
$ mkdir visp-build-ros; cd visp-build-ros
$ cmake -DCMAKE_INSTALL_PREFIX=/opt/ros/$ROS_DISTRO ../visp
$ make -j4; sudo make install
- Then get
vision_visp
meta package that containsvisp-bridge
package that is avisp_ros
package dependency:
$ cd ~/catkin_ws/src
$ source /opt/ros/<version>/setup.bash
$ git clone https://github.com/lagadic/vision_visp.git -b $ROS_DISTRO
1.2. Get visp_ros source
Get visp_ros
package:
$ git clone https://github.com/lagadic/visp_ros.git
1.3. Build visp_ros package
To build visp_ros
package run:
$ cd ~/catkin_ws
$ catkin_make -DCMAKE_BUILD_TYPE=Release --pkg visp_ros
1.4. Build documentation and tutorials
There is the documentation available in ROS wiki page: http://wiki.ros.org/visp_ros
It is also possible to build the package documentation from your own:
$ cd ~/catkin_ws
$ rosdoc_lite src/visp_ros
Documentation is available in ~/catkin_ws/doc/html/index.html
.
This documentation is a local version of the documentation available here.
2. Usage
See https://wiki.ros.org/visp_ros
Wiki Tutorials
Package Dependencies
Deps | Name |
---|---|
message_generation | |
catkin | |
image_view | |
message_runtime | |
usb_cam | |
roscpp | |
rospy | |
std_msgs | |
geometry_msgs | |
sensor_msgs | |
cv_bridge | |
image_geometry | |
image_transport | |
visp_bridge | |
tf | |
nodelet | |
kdl_parser |
System Dependencies
Name |
---|
liborocos-kdl-dev |
Dependant Packages
Launch files
- launch/biclops.launch
- launch/bebop_servo_nodelet.launch
- This file launches drone driver and visual servoing nodelets You have can then make the drone take off or land by publishing corresponding messages : "rostopic pub -\-once /bebop/takeoff std_msgs/Empty" for takeoff "rostopic pub -\-once /bebop/land std_msgs/Empty" for landing (without "\")
-
- namespace_bebop [default: bebop]
- ip [default: 192.168.42.1]
- launch/bebop_servo_node.launch
- This file launches drone driver and visual servoing nodes You have can then make the drone take off or land by publishing corresponding messages : "rostopic pub -\-once /bebop/takeoff std_msgs/Empty" for takeoff "rostopic pub -\-once /bebop/land std_msgs/Empty for" landing (without "\")
-
- namespace_bebop [default: bebop]
- ip [default: 192.168.42.1]
- launch/blob_tracker.launch
- -*- xml -*-
-
- launch/demo_pbvs_blob_afma6.launch
- -*- xml -*-
-
- launch/afma6.launch
- launch/viper850.launch
- launch/viper650.launch
- launch/bebop_teleop_iv.launch
- This file launches drone driver and visual servoing nodelets You have can then make the drone take off or land by publishing corresponding messages : "rostopic pub -\-once /bebop/takeoff std_msgs/Empty" for takeoff "rostopic pub -\-once /bebop/land std_msgs/Empty" for landing (without "\")
-
- namespace_bebop [default: bebop]
- ip [default: 192.168.42.1]
- joy_dev [default: /dev/input/js0]
- joy_config [default: log710]
- tutorial/grabber/ros/camera-usb.launch
- -*- xml -*-
-
- tutorial/grabber/ros/camera-firewire.launch
- -*- xml -*-
-