| ur-calibration |
5.0.0-1 |
Package for extracting the factory calibration from a UR robot and change it such that it can be used by ur_description to gain a correct URDF |
meta-ros2-rolling |
| ur-calibration |
2.4.1-1 |
Package for extracting the factory calibration from a UR robot and change it such that it can be used by ur_description to gain a correct URDF |
meta-ros1-noetic |
| ur-calibration |
2.12.0-1 |
Package for extracting the factory calibration from a UR robot and change it such that it can be used by ur_description to gain a correct URDF |
meta-ros2-humble |
| ur-calibration |
3.7.0-1 |
Package for extracting the factory calibration from a UR robot and change it such that it can be used by ur_description to gain a correct URDF |
meta-ros2-jazzy |
| ur-calibration |
4.5.0-1 |
Package for extracting the factory calibration from a UR robot and change it such that it can be used by ur_description to gain a correct URDF |
meta-ros2-kilted |
| urdfdom |
1.0.0-2 |
The URDF (U-Robot Description Format) library provides core data structures and a simple XML parsers for populating the class data structures from an URDF file. |
meta-ros1 |
| urdfdom-headers |
1.0.0-1 |
The URDF (U-Robot Description Format) headers provides core data structure headers for URDF. |
meta-ros1 |
| urngd |
1.0.2+gitX |
OpenWrt non-physical true random number generator based on timing jitter |
meta-tanowrt |
| usbmuxd |
1.1.2+git |
This daemon is in charge of multiplexing connections over USB to an iPhone or iPod touch. |
meta-oe |
| userspace-resource-manager |
0.3 |
Userspace daemon for dynamic System resource management |
meta-qcom |
| uthash |
2.3.0 |
Hash table and linked list for C structures |
meta-oe |
| uthash |
2.1.0 |
Hash table and linked list for C structures |
meta-tangle |
| variable-magic-perl |
0.62 |
Magic is Perl's way of enhancing variables. This mechanism lets the user add extra data to any variable and hook syntactical operations (such as access, assignment or destruction) that can be applied to it. With this module, you can add your own magic to any variable without having to write a single line of XS. |
meta-cpan |
| vcontainer-tarball |
1.0 |
Standalone SDK tarball for vdkr and vpdmn container tools |
meta-virtualization |
| vernemq |
1.13.0 |
A distributed MQTT message broker based on Erlang/OTP. Built for high quality & Industrial use cases. |
meta-erlang |
| vision-msgs |
0.0.1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros1-melodic |
| vision-msgs |
2.0.0-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-dashing |
| vision-msgs |
2.0.0-2 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-eloquent |
| vision-msgs |
2.0.0-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-foxy |
| vision-msgs |
4.2.0-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-rolling |
| vision-msgs |
0.0.2-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros1-noetic |
| vision-msgs |
3.0.1-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-galactic |
| vision-msgs |
4.1.1-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-humble |
| vision-msgs |
4.1.1-3 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-jazzy |
| vision-msgs |
4.2.0-1 |
Messages for interfacing with various computer vision pipelines, such as object detectors. |
meta-ros2-kilted |
| visp-bridge |
0.12.0-1 |
Converts between ROS structures and ViSP structures. |
meta-ros1-melodic |
| visp-bridge |
0.13.1-1 |
Converts between ROS structures and ViSP structures. |
meta-ros1-noetic |
| visualization-msgs |
1.12.8-1 |
visualization_msgs is a set of messages used by higher level packages, such as <a href="/wiki/rviz">rviz</a>, that deal in visualization-specific data. The main messages in visualization_msgs is <tt>visualization_msgs/Marker</tt>. The marker message is used to send visualization "markers" such as boxes, spheres, arrows, lines, etc. to a visualization environment such as <a href="http:///www.ros.org/wiki/rviz">rviz</a>. See the rviz tutorial <a href="http://www.ros.org/wiki/rviz/Tutorials">rviz tutorials</a> for more information. |
meta-ros1-melodic |
| visualization-msgs |
1.13.2-1 |
visualization_msgs is a set of messages used by higher level packages, such as <a href="/wiki/rviz">rviz</a>, that deal in visualization-specific data. The main messages in visualization_msgs is <tt>visualization_msgs/Marker</tt>. The marker message is used to send visualization "markers" such as boxes, spheres, arrows, lines, etc. to a visualization environment such as <a href="http:///www.ros.org/wiki/rviz">rviz</a>. See the rviz tutorial <a href="http://www.ros.org/wiki/rviz/Tutorials">rviz tutorials</a> for more information. |
meta-ros1-noetic |
| vkcube |
git |
Spinning Vulkan Cube |
meta-vulkan |
| voxel-grid |
1.16.7-1 |
voxel_grid provides an implementation of an efficient 3D voxel grid. The occupancy grid can support 3 different representations for the state of a cell: marked, free, or unknown. Due to the underlying implementation relying on bitwise and and or integer operations, the voxel grid only supports 16 different levels per voxel column. However, this limitation yields raytracing and cell marking performance in the grid comparable to standard 2D structures making it quite fast compared to most 3D structures. |
meta-ros1-melodic |
| voxel-grid |
1.17.3-1 |
voxel_grid provides an implementation of an efficient 3D voxel grid. The occupancy grid can support 3 different representations for the state of a cell: marked, free, or unknown. Due to the underlying implementation relying on bitwise and and or integer operations, the voxel grid only supports 16 different levels per voxel column. However, this limitation yields raytracing and cell marking performance in the grid comparable to standard 2D structures making it quite fast compared to most 3D structures. |
meta-ros1-noetic |
| vrpn |
7.34.0-1 |
The VRPN is a library and set of servers that interfaces with virtual-reality systems, such as VICON, OptiTrack, and others. |
meta-ros1-melodic |
| vrpn |
7.35.0-20 |
The VRPN is a library and set of servers that interfaces with virtual-reality systems, such as VICON, OptiTrack, and others. |
meta-ros2-rolling |
| vrpn |
7.34.0-2 |
The VRPN is a library and set of servers that interfaces with virtual-reality systems, such as VICON, OptiTrack, and others. |
meta-ros1-noetic |
| vrpn |
7.35.0-11 |
The VRPN is a library and set of servers that interfaces with virtual-reality systems, such as VICON, OptiTrack, and others. |
meta-ros2-humble |
| vrpn |
7.35.0-18 |
The VRPN is a library and set of servers that interfaces with virtual-reality systems, such as VICON, OptiTrack, and others. |
meta-ros2-jazzy |
| vrpn |
7.35.0-21 |
The VRPN is a library and set of servers that interfaces with virtual-reality systems, such as VICON, OptiTrack, and others. |
meta-ros2-kilted |
| vrpn-mocap |
1.1.0-3 |
ROS2 <a href="https://github.com/vrpn/vrpn">VRPN</a> client built primarily to interface with motion capture devices such as VICON and OptiTrack. A detailed list of supported hardware can be found <a href="https://github.com/vrpn/vrpn/wiki/Available-hardware-devices">here</a>. |
meta-ros2-rolling |
| vrpn-mocap |
1.1.0-1 |
ROS2 <a href="https://github.com/vrpn/vrpn">VRPN</a> client built primarily to interface with motion capture devices such as VICON and OptiTrack. A detailed list of supported hardware can be found <a href="https://github.com/vrpn/vrpn/wiki/Available-hardware-devices">here</a>. |
meta-ros2-humble |
| vrpn-mocap |
1.1.0-4 |
ROS2 <a href="https://github.com/vrpn/vrpn">VRPN</a> client built primarily to interface with motion capture devices such as VICON and OptiTrack. A detailed list of supported hardware can be found <a href="https://github.com/vrpn/vrpn/wiki/Available-hardware-devices">here</a>. |
meta-ros2-jazzy |
| vrpn-mocap |
1.1.0-4 |
ROS2 <a href="https://github.com/vrpn/vrpn">VRPN</a> client built primarily to interface with motion capture devices such as VICON and OptiTrack. A detailed list of supported hardware can be found <a href="https://github.com/vrpn/vrpn/wiki/Available-hardware-devices">here</a>. |
meta-ros2-kilted |
| vulkan-headers |
1.4.341.0 |
Vulkan Header files and API registry |
openembedded-core |
| vulkan-headers |
1.3.275.0.imx |
Vulkan Header files and API registry |
meta-freescale |
| vulkan-headers |
1.4.341.0 |
Vulkan Header files and API registry |
meta-voltumna |
| vxn |
1.0 |
Docker CLI for Xen-based container execution |
meta-virtualization |
| wayland-protocols |
1.48 |
Collection of additional Wayland protocols |
openembedded-core |
| wayland-protocols |
1.48 |
Collection of additional Wayland protocols |
meta-voltumna |
| wayland-protocols |
1.39 |
Collection of additional Wayland protocols |
meta-kde |
| wayland-protocols |
1.45 |
Collection of additional Wayland protocols |
meta-kde |