| rmw-connext-cppblacklisted |
0.8.1-1 |
Implement the ROS middleware interface using RTI Connext static code generation in C++. |
meta-ros2-eloquent |
| rmw-connext-cppblacklisted |
1.0.0-1 |
Implement the ROS middleware interface using RTI Connext static code generation in C++. |
meta-ros2-foxy |
| rmw-connext-shared-cppblacklisted |
0.7.4-1 |
C++ types and functions shared by the ROS middleware interface to RTI Connext Static and RTI Connext Dynamic. |
meta-ros2-dashing |
| rmw-connext-shared-cppblacklisted |
0.8.1-1 |
C++ types and functions shared by the ROS middleware interface to RTI Connext Static and RTI Connext Dynamic. |
meta-ros2-eloquent |
| rmw-connext-shared-cppblacklisted |
1.0.0-1 |
C++ types and functions shared by the ROS middleware interface to RTI Connext Static and RTI Connext Dynamic. |
meta-ros2-foxy |
| rmw-cyclonedds-cpp |
0.4.2-1 |
Implement the ROS middleware interface using Eclipse CycloneDDS in C++. |
meta-ros2-dashing |
| rmw-cyclonedds-cpp |
0.4.4-1 |
Implement the ROS middleware interface using Eclipse CycloneDDS in C++. |
meta-ros2-eloquent |
| rmw-cyclonedds-cpp |
0.7.1-1 |
Implement the ROS middleware interface using Eclipse CycloneDDS in C++. |
meta-ros2-foxy |
| rmw-dds-common |
1.0.1-1 |
Define a common interface between DDS implementations of ROS middleware. |
meta-ros2-foxy |
| rmw-fastrtps-cpp |
0.7.7-1 |
Implement the ROS middleware interface using eProsima FastRTPS static code generation in C++. |
meta-ros2-dashing |
| rmw-fastrtps-cpp |
0.8.1-1 |
Implement the ROS middleware interface using eProsima FastRTPS static code generation in C++. |
meta-ros2-eloquent |
| rmw-fastrtps-cpp |
1.0.1-1 |
Implement the ROS middleware interface using eProsima FastRTPS static code generation in C++. |
meta-ros2-foxy |
| rmw-fastrtps-dynamic-cpp |
0.7.7-1 |
Implement the ROS middleware interface using eProsima FastRTPS static code generation in C++. |
meta-ros2-dashing |
| rmw-fastrtps-dynamic-cpp |
0.8.1-1 |
Implement the ROS middleware interface using eProsima FastRTPS static code generation in C++. |
meta-ros2-eloquent |
| rmw-fastrtps-dynamic-cpp |
1.0.1-1 |
Implement the ROS middleware interface using introspection type support. |
meta-ros2-foxy |
| rmw-fastrtps-shared-cpp |
0.7.7-1 |
Code shared on static and dynamic type support of rmw_fastrtps_cpp. |
meta-ros2-dashing |
| rmw-fastrtps-shared-cpp |
0.8.1-1 |
Code shared on static and dynamic type support of rmw_fastrtps_cpp. |
meta-ros2-eloquent |
| rmw-fastrtps-shared-cpp |
1.0.1-1 |
Code shared on static and dynamic type support of rmw_fastrtps_cpp. |
meta-ros2-foxy |
| rmw-implementation |
0.7.2-1 |
The decision which ROS middleware implementation should be used for C++. |
meta-ros2-dashing |
| rmw-implementation |
0.8.2-2 |
The decision which ROS middleware implementation should be used for C++. |
meta-ros2-eloquent |
| rmw-implementation |
1.0.0-1 |
The decision which ROS middleware implementation should be used for C++. |
meta-ros2-foxy |
| rmw-implementation-cmake |
0.7.2-1 |
CMake functions which can discover and enumerate available implementations. |
meta-ros2-dashing |
| rmw-implementation-cmake |
0.8.1-1 |
CMake functions which can discover and enumerate available implementations. |
meta-ros2-eloquent |
| rmw-implementation-cmake |
1.0.1-1 |
CMake functions which can discover and enumerate available implementations. |
meta-ros2-foxy |
| rmw-opensplice-cppblacklisted |
0.7.3-1 |
Implement the ROS middleware interface using PrismTech OpenSplice static code generation in C++. |
meta-ros2-dashing |
| rmw-opensplice-cppblacklisted |
0.8.1-1 |
Implement the ROS middleware interface using ADLINK OpenSplice static code generation in C++. |
meta-ros2-eloquent |
| robot |
1.4.1 |
A metapackage which extends ros_base and includes ROS libaries for any robot hardware. It may not contain any GUI dependencies. |
meta-ros1-melodic |
| robot-activity |
0.1.1 |
The robot_activity package implements ROS node lifecycle |
meta-ros1-melodic |
| robot-activity-msgs |
0.1.1 |
This package contains messages used by robot_activity, such as node's state and error |
meta-ros1-melodic |
| robot-activity-tutorials |
0.1.1 |
The robot_activity_tutorials package |
meta-ros1-melodic |
| robot-body-filterblacklisted |
1.1.6-1 |
Filters the robot's body out of laser scans or point clouds. |
meta-ros1-melodic |
| robot-calibration |
0.6.2-1 |
Calibrate a Robot |
meta-ros1-melodic |
| robot-calibration-msgs |
0.6.2-1 |
Messages for calibrating a robot |
meta-ros1-melodic |
| robot-controllers |
0.6.0 |
Some basic robot controllers for use with robot_controllers_interface. |
meta-ros1-melodic |
| robot-controllers-interface |
0.6.0 |
Generic framework for robot controls. |
meta-ros1-melodic |
| robot-controllers-msgs |
0.6.0 |
Messages for use with robot_controllers framework. |
meta-ros1-melodic |
| robot-localization |
2.6.6-1 |
Provides nonlinear state estimation through sensor fusion of an abritrary number of sensors. |
meta-ros1-melodic |
| robot-localization |
3.0.2-1 |
Provides nonlinear state estimation through sensor fusion of an abritrary number of sensors. |
meta-ros2-dashing |
| robot-mechanism-controllersblacklisted |
1.10.17-1 |
Generic Mechanism Controller Library |
meta-ros1-melodic |
| robot-navigation |
0.2.5-1 |
The robot_navigation package |
meta-ros1-melodic |
| robot-one |
0.1.1-1 |
This package allows to use the Robot One Framework with ROS. The supported features of the framework includes the simulator and connection with the physical robots |
meta-ros1-melodic |
| robot-pose-ekf |
1.14.5 |
The Robot Pose EKF package is used to estimate the 3D pose of a robot, based on (partial) pose measurements coming from different sources. It uses an extended Kalman filter with a 6D model (3D position and 3D orientation) to combine measurements from wheel odometry, IMU sensor and visual odometry. The basic idea is to offer loosely coupled integration with different sensors, where sensor signals are received as ROS messages. |
meta-ros1-melodic |
| robot-self-filter |
0.1.31 |
Filters the robot's body out of point clouds. |
meta-ros1-melodic |
| robot-setup-tf-tutorial |
0.2.3-1 |
The robot_setup_tf_tutorial package |
meta-ros1-melodic |
| robot-state-publisher |
1.14.0-1 |
This package allows you to publish the state of a robot to <a href="http://ros.org/wiki/tf">tf</a>. Once the state gets published, it is available to all components in the system that also use <tt>tf</tt>. The package takes the joint angles of the robot as input and publishes the 3D poses of the robot links, using a kinematic tree model of the robot. The package can both be used as a library and as a ROS node. This package has been well tested and the code is stable. No major changes are planned in the near future. |
meta-ros1-melodic |
| robot-state-publisher |
2.2.5-1 |
ROS2 version of the robot_state_publisher package |
meta-ros2-dashing |
| robot-state-publisher |
2.3.1-1 |
ROS2 version of the robot_state_publisher package |
meta-ros2-eloquent |
| robot-state-publisher |
2.4.0-1 |
This package allows you to publish the state of a robot to <a href="http://wiki.ros.org/tf2">tf2</a>. Once the state gets published, it is available to all components in the system that also use <tt>tf2</tt>. The package takes the joint angles of the robot as input and publishes the 3D poses of the robot links, using a kinematic tree model of the robot. |
meta-ros2-foxy |
| robot-upstart |
0.3.0 |
The robot_upstart package provides scripts which may be used to install and uninstall Ubuntu Linux upstart jobs which launch groups of roslaunch files. |
meta-ros1-melodic |
| robotis-manipulator |
1.0.0 |
This package contains the manipulation API and functions for controlling the manipulator. |
meta-ros1-melodic |