| rqt-robot-monitor |
1.0.6-2 |
rqt_robot_monitor displays diagnostics_agg topics messages that are published by <a href="http://www.ros.org/wiki/diagnostic_aggregator">diagnostic_aggregator</a>. rqt_robot_monitor is a direct port to rqt of <a href="http://www.ros.org/wiki/robot_monitor">robot_monitor</a>. All diagnostics are fall into one of three tree panes depending on the status of diagnostics (normal, warning, error/stale). Status are shown in trees to represent their hierarchy. Worse status dominates the higher level status.<br/> <ul> Ex. 'Computer' category has 3 sub devices. 2 are green but 1 is error. Then 'Computer' becomes error. </ul> You can look at the detail of each status by double-clicking the tree nodes.<br/> Currently re-usable API to other pkgs are not explicitly provided. |
meta-ros2-kilted |
| rubygems-public-suffix |
7.0.0 |
RubyGem: public_suffix |
meta-rubygems |
| ruli |
0.36 |
RULI stands for Resolver User Layer Interface It's a library built on top of an asynchronous DNS stub resolver |
meta-networking |
| schunk-simulated-tactile-sensors |
0.6.14-1 |
This package provides simulated tactile sensors for the Schunk Dextrous Hand (SDH) which is mounted on the Care-O-bot arm. The node subscribes to the Gazebo bumper topics of the SDH. It transforms the Gazebo feedback to the "tactile_data" topic to provide the same tactile sensor interface as the schunk_sdh package. The following parameters can be set: * cells_x: The number of patches on the tactile sensor in the direction perpendicular to the finger. Defaults to 6. * cells_y: The number of patches on the tactile sensor along the direction of the finger. Defaults to 14. * output_range: The maximum output value of one patch. Defaults to 3500. * sensitivity: The change of output in one patch per Newton. Defaults to 350. The sensitivity can be approximated by the following formula: S = output_range / (measurement_range * cell_area) - The measurement range of the tactile pads is 250 kPa (from the data sheet). - The output range can be determined by experiment from the real SDH. It is about 3500. - The cell area is the size of one patch. Length and width of the area are determined by dividing the length/width of the collision surface by the number of cells in the respective direction. Important: In most cases this is NOT the cell area that is given in the data sheet! * filter_length: The length of the moving average filter which smoothes the values from simulation. Defaults to 10. The node subscribes to the following topics to receive data from the simulation: * thumb_2/state * thumb_3/state * finger_12/state * finger_13/state * finger_22/state * finger_23/state The node publishes the processed data on the following topic: * tactile_data The simulated bumper must obtain the collision data in the link that the sensor is attached to. This is achieved by setting the "frameName" property in the gazebo_ros_bumper controller. |
meta-ros1-noetic |
| smacc |
1.4.6-1 |
SMACC is a ROS/C++ library to implement in easy and systematic way UML StateCharts (AKA state machines). SMACC is inspired by the SMACH ROS package and it is built on top of Boost StateChart library. Developed by Reel Robotics. |
meta-ros1-noetic |
| smach-ros |
3.0.3-2 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-rolling |
| smach-ros |
2.5.3-1 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros1-noetic |
| smach-ros |
3.0.3-1 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-humble |
| smach-ros |
3.0.3-3 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-jazzy |
| smach-ros |
3.0.3-3 |
The smach_ros package contains extensions for the SMACH library to integrate it tightly with ROS. For example, SMACH-ROS can call ROS services, listen to ROS topics, and integrate with <a href="http://www.ros.org/wiki/actionlib">actionlib</a> both as a client, and a provider of action servers. SMACH is a new library that takes advantage of very old concepts in order to quickly create robust robot behavior with maintainable and modular code. |
meta-ros2-kilted |
| socketcan-bridge |
0.8.5-1 |
Conversion nodes for messages from SocketCAN to a ROS Topic and vice versa. |
meta-ros1-noetic |
| sound-play |
0.3.18-1 |
sound_play provides a ROS node that translates commands on a ROS topic (<tt>robotsound</tt>) into sounds. The node supports built-in sounds, playing OGG/WAV files, and doing speech synthesis via festival. C++ and Python bindings allow this node to be used without understanding the details of the message format, allowing faster development and resilience to message format changes. |
meta-ros1-noetic |
| spice |
0.16.0 |
Simple Protocol for Independent Computing Environments |
meta-networking |
| spice-gtk |
0.42 |
A Gtk client and libraries for SPICE remote desktop servers. |
meta-networking |
| spice-html5 |
0.1.4 |
Prototype Spice Javascript client |
meta-openstack |
| stalonetray |
0.8.3 |
Stand-alone system tray |
meta-oe |
| statistics-msgs |
2.4.4-1 |
Message definitions for reporting statistics for topics and system resources. |
meta-ros2-rolling |
| statistics-msgs |
1.2.2-1 |
Message definitions for reporting statistics for topics and system resources. |
meta-ros2-humble |
| statistics-msgs |
2.0.3-1 |
Message definitions for reporting statistics for topics and system resources. |
meta-ros2-jazzy |
| statistics-msgs |
2.3.1-1 |
Message definitions for reporting statistics for topics and system resources. |
meta-ros2-kilted |
| swri-rospy |
2.15.4-1 |
This package provides added functionality on top of rospy, including a single-threaded callback queue. |
meta-ros1-noetic |
| sysfsutils |
2.1.1 |
Tools for working with sysfs |
openembedded-core |
| taglib |
2.1.1 |
Library for reading and editing the meta-data of popular audio formats |
openembedded-core |
| taisei |
1.4.4 |
Taisei Project is an open source danmaku |
meta-oe |
| tango-icons-vendor |
0.5.1-1 |
tango_icons_vendor provides the public domain Tango icons for non-linux systems (<a href="http://tango-project.org/Tango_Icon_Library/">Tango Icon Library</a>) from the <a href="http://tango-project.org/Tango_Desktop_Project/">Tango Desktop Project</a> |
meta-ros2-rolling |
| tango-icons-vendor |
0.1.1-3 |
tango_icons_vendor provides the public domain Tango icons for non-linux systems (<a href="http://tango-project.org/Tango_Icon_Library/">Tango Icon Library</a>) from the <a href="http://tango-project.org/Tango_Desktop_Project/">Tango Desktop Project</a> |
meta-ros2-humble |
| tango-icons-vendor |
0.3.1-1 |
tango_icons_vendor provides the public domain Tango icons for non-linux systems (<a href="http://tango-project.org/Tango_Icon_Library/">Tango Icon Library</a>) from the <a href="http://tango-project.org/Tango_Desktop_Project/">Tango Desktop Project</a> |
meta-ros2-jazzy |
| tango-icons-vendor |
0.4.1-1 |
tango_icons_vendor provides the public domain Tango icons for non-linux systems (<a href="http://tango-project.org/Tango_Icon_Library/">Tango Icon Library</a>) from the <a href="http://tango-project.org/Tango_Desktop_Project/">Tango Desktop Project</a> |
meta-ros2-kilted |
| tf2-server |
1.1.3-1 |
TF2 server that can provide transforms over separate TF topics |
meta-ros1-noetic |
| thunar |
4.20.5 |
File manager for the Xfce Desktop Environment |
meta-xfce |
| turtlebot3-example |
1.2.5-1 |
This package provides four TurtleBot3 basic example include move using interactive marker, move and stop using LDS, move to goal position, move to custom routes. The interactions node is that you can control the TurtleBot3 front and back side or rotate to goal position. The obstacle node is that when the robot meets an obstacle, it stops. The patrol node is that TurtleBot3 move to custom route. There are 3 route(square, triangle, circle) in this package. You can add your route and move the TurtleBot3. The pointop node is that you can insert goal position include distance x-axis, y-axis and angluar z-axis. |
meta-ros1-noetic |
| tuw-multi-robot-msgs |
0.2.6-1 |
The tuw_multi_robot_msgs package contains messages for sending graph, route and sync data over topics. |
meta-ros2-rolling |
| tuw-multi-robot-msgs |
0.2.6-1 |
The tuw_multi_robot_msgs package contains messages for sending graph, route and sync data over topics. |
meta-ros2-humble |
| tuw-multi-robot-msgs |
0.2.6-1 |
The tuw_multi_robot_msgs package contains messages for sending graph, route and sync data over topics. |
meta-ros2-jazzy |
| tuw-multi-robot-msgs |
0.2.5-2 |
The tuw_multi_robot_msgs package contains messages for sending graph, route and sync data over topics. |
meta-ros2-kilted |
| twist-mux |
4.5.1-1 |
Twist multiplexer, which multiplex several velocity commands (topics) and allows to priorize or disable them (locks). |
meta-ros2-rolling |
| twist-mux |
3.1.3-1 |
Twist multiplexer, which multiplex several velocity commands (topics) and allows to priorize or disable them (locks). |
meta-ros1-noetic |
| twist-mux |
4.3.0-1 |
Twist multiplexer, which multiplex several velocity commands (topics) and allows to priorize or disable them (locks). |
meta-ros2-humble |
| twist-mux |
4.5.0-1 |
Twist multiplexer, which multiplex several velocity commands (topics) and allows to priorize or disable them (locks). |
meta-ros2-jazzy |
| twist-mux |
4.5.0-1 |
Twist multiplexer, which multiplex several velocity commands (topics) and allows to priorize or disable them (locks). |
meta-ros2-kilted |
| um6 |
1.1.3-4 |
The um6 package provides a C++ implementation of the CH Robotics serial protocol, and a corresponding ROS node for publishing standard ROS orientation topics from a UM6. |
meta-ros1-noetic |
| um7 |
0.0.7-1 |
The um7 package provides a C++ implementation of the CH Robotics serial protocol, and a corresponding ROS node for publishing standard ROS orientation topics from a UM7. |
meta-ros1-noetic |
| video-stream-opencv |
1.1.6-1 |
The video_stream_opencv package contains a node to publish a video stream (the protocols that opencv supports are supported, including rtsp, webcams on /dev/video and video files) in ROS image topics, it supports camera info and basic image flipping (horizontal, vertical or both) capabilities, also adjusting publishing rate. |
meta-ros1-noetic |
| vimbax-camera-msgs |
1.0.2-1 |
Topic and Service definitions used by the vimbax_camera_node |
meta-ros2-humble |
| web-video-server |
3.1.0-1 |
HTTP Streaming of ROS Image Topics in Multiple Formats |
meta-ros2-rolling |
| web-video-server |
0.2.2-1 |
HTTP Streaming of ROS Image Topics in Multiple Formats |
meta-ros1-noetic |
| web-video-server |
3.1.0-1 |
HTTP Streaming of ROS Image Topics in Multiple Formats |
meta-ros2-humble |
| web-video-server |
3.1.0-1 |
HTTP Streaming of ROS Image Topics in Multiple Formats |
meta-ros2-jazzy |
| web-video-server |
3.1.0-1 |
HTTP Streaming of ROS Image Topics in Multiple Formats |
meta-ros2-kilted |
| webrtcvad-ros |
2.1.31-4 |
This package provides a wrapper node for webrtcvad. It subscribes an audio topic and publish a flag if curretly speeched or not with VAD. |
meta-ros1-noetic |