| libshake |
0.3.2 |
Simple, cross-platform haptic library. |
meta-libretro |
| libspiro |
20240903 |
LibSpiro is an adaptation of Spiro formula and functions into a sharable library |
meta-oe |
| libtest-nowarnings-perl |
1.04 |
Make sure you didn't emit any warnings while testing |
meta-perl |
| libxv |
1.0.13 |
Xv: X Video extension library |
openembedded-core |
| linux-artik530 |
4.1.15 |
Linux kernel |
meta-nexell |
| linux-artik7 |
4.1.15 |
Linux kernel |
meta-nexell |
| liri-screenshot |
0.9.0+gitX |
Utility to capture the screen of a Liri desktop |
meta-qt5-extra |
| log-any-perl |
1.710 |
"Log::Any" provides a standard log production API for modules. Log::Any::Adapter allows applications to choose the mechanism for log consumption, whether screen, file or another logging mechanism like Log::Dispatch or Log::Log4perl. |
meta-cpan |
| mocap-nokov |
0.0.4-1 |
Streaming of Nokov mocap data to tf <p> This package contains a node that translates motion capture data from an nokov rig to tf transforms, poses and 2D poses. </p> |
meta-ros1-noetic |
| mocap-optitrack |
0.1.3-1 |
Streaming of OptiTrack mocap data to tf <p> This package contains a node that translates motion capture data from an OptiTrack rig to tf transforms, poses and 2D poses. The node receives packets that are streamed by a NatNet compliant source, decodes them and broadcasts the poses of configured rigid bodies as tf transforms, poses, and/or 2D poses. </p> <p> Currently, this node supports the NatNet streaming protocol v3.0 </p> <p> Copyright (c) 2013, Clearpath Robotics<br/> Copyright (c) 2010, University of Bonn, Computer Science Institute VI<br/> All rights reserved. </p> |
meta-ros1-melodic |
| mocap-optitrack |
0.1.4-1 |
Streaming of OptiTrack mocap data to tf <p> This package contains a node that translates motion capture data from an OptiTrack rig to tf transforms, poses and 2D poses. The node receives packets that are streamed by a NatNet compliant source, decodes them and broadcasts the poses of configured rigid bodies as tf transforms, poses, and/or 2D poses. </p> <p> Currently, this node supports the NatNet streaming protocol v3.0 </p> <p> Copyright (c) 2013, Clearpath Robotics<br/> Copyright (c) 2010, University of Bonn, Computer Science Institute VI<br/> All rights reserved. </p> |
meta-ros1-noetic |
| mocap-optitrack |
1.0.1-1 |
Streaming of OptiTrack mocap data to tf <p> This package contains a node that translates motion capture data from an OptiTrack rig to tf transforms, poses and 2D poses. The node receives packets that are streamed by a NatNet compliant source, decodes them and broadcasts the poses of configured rigid bodies as tf transforms, poses, and/or 2D poses. </p> <p> Currently, this node supports the NatNet streaming protocol v3.0 </p> <p> Copyright (c) 2013, Clearpath Robotics<br/> Copyright (c) 2010, University of Bonn, Computer Science Institute VI<br/> All rights reserved. </p> |
meta-ros2-humble |
| mocap-optitrack |
1.0.1-1 |
Streaming of OptiTrack mocap data to tf <p> This package contains a node that translates motion capture data from an OptiTrack rig to tf transforms, poses and 2D poses. The node receives packets that are streamed by a NatNet compliant source, decodes them and broadcasts the poses of configured rigid bodies as tf transforms, poses, and/or 2D poses. </p> <p> Currently, this node supports the NatNet streaming protocol v3.0 </p> <p> Copyright (c) 2013, Clearpath Robotics<br/> Copyright (c) 2010, University of Bonn, Computer Science Institute VI<br/> All rights reserved. </p> |
meta-ros2-jazzy |
| moox-log-any-perl |
0.004004 |
A logging role building a very lightweight wrapper to Log::Any for use with your Moo or Moose classes. Connecting a Log::Any::Adapter should be performed prior to logging the first log message, otherwise nothing will happen, just like with Log::Any |
meta-cpan |
| nav2-amcl |
0.2.6-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-dashing |
| nav2-amcl |
0.3.5-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-eloquent |
| nav2-amcl |
0.4.7-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-foxy |
| nav2-amcl |
1.0.7-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-galactic |
| nav2-amcl |
1.1.20-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-humble |
| nav2-amcl |
1.3.11-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-jazzy |
| nav2-amcl |
1.4.2-1 |
<p> amcl is a probabilistic localization system for a robot moving in 2D. It implements the adaptive (or KLD-sampling) Monte Carlo localization approach (as described by Dieter Fox), which uses a particle filter to track the pose of a robot against a known map. </p> <p> This node is derived, with thanks, from Andrew Howard's excellent 'amcl' Player driver. </p> |
meta-ros2-kilted |
| ncurses |
6.6 |
The New Curses library |
openembedded-core |
| ncurses |
6.6 |
The New Curses library |
meta-voltumna |
| net-ssh-multi |
1.2.1 |
A library for controlling multiple ssh connections via a single interface |
meta-openstack |
| netsniff-ng |
0.6.9 |
Netsniff-ng is a fast zero-copy analyzer, pcap capturing and replaying tool |
meta-networking |
| netsniff-ng |
0.6.9 |
Netsniff-ng is a fast zero-copy analyzer, pcap capturing and replaying tool |
meta-voltumna |
| nsight-systems |
2024.5.4.34-245434855735v0 |
NVIDIA Nsight Systems is a multi-core CPU sampling profiler that provides an interactive view of captured profiling data, helping improve overall application performance. |
meta-tegra |
| opencore-amr |
0.1.6 |
OpenCORE Adaptive Multi Rate (AMR) speech codec library implementation |
meta-multimedia |
| opie-camera |
X |
Opie Camera, Photo and Video Capturing Application for the Sharp CF-AG06 camera |
meta-opie |
| opie-camera |
1.2.5 |
Opie Camera, Photo and Video Capturing Application for the Sharp CF-AG06 camera |
meta-opie |
| osg-interactive-markers |
1.0.2-2 |
This package is basically an OpenSceneGraph (OSG) adaptation of the Interactive Markers client writen for rviz/Ogre. |
meta-ros1-melodic |
| osmocom-tcpdump |
1.0 |
Osmocom round-robin tcpdump/capture |
meta-telephony |
| pcapplusplus |
25.05 |
A multiplatform C++ library for capturing, parsing and crafting of network packets |
meta-oe |
| pcapplusplus |
25.05 |
A multiplatform C++ library for capturing, parsing and crafting of network packets |
meta-voltumna |
| pointgrey-camera-driver |
0.14.1-1 |
Point Grey camera driver based on libflycapture2. |
meta-ros1-melodic |
| pointgrey-camera-driver |
0.15.1-1 |
Point Grey camera driver based on libflycapture2. |
meta-ros1-noetic |
| powerstat |
0.03.03+git |
Powerstat measures the power consumption of a laptop using the ACPI battery information. |
meta-luneos |
| python-crcmod |
1.7 |
A Python module for generating objects that compute the Cyclic Redundancy Check. |
meta-python2 |
| python-editor |
1.0.4 |
Programmatically open and editor, capture the result |
meta-python2 |
| python-flask-wtf |
0.14.2 |
Simple integration of Flask and WTForms. |
meta-python2 |
| python-psycopg2 |
2.7.5 |
Python-PostgreSQL Database Adapter |
meta-openstack |
| python-qt-binding |
0.4.4-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide is released under the LGPL. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros1-melodic |
| python-qt-binding |
1.0.2-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-dashing |
| python-qt-binding |
1.0.3-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-eloquent |
| python-qt-binding |
1.0.5-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-foxy |
| python-qt-binding |
2.5.4-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-rolling |
| python-qt-binding |
0.4.6-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide is released under the LGPL. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros1-noetic |
| python-qt-binding |
1.0.7-2 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-galactic |
| python-qt-binding |
1.1.3-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-humble |
| python-qt-binding |
2.2.2-1 |
This stack provides Python bindings for Qt. There are two providers: pyside and pyqt. PySide2 is available under the GPL, LGPL and a commercial license. PyQt is released under the GPL. Both the bindings and tools to build bindings are included from each available provider. For PySide, it is called "Shiboken". For PyQt, this is called "SIP". Also provided is adapter code to make the user's Python code independent of which binding provider was actually used which makes it very easy to switch between these. |
meta-ros2-jazzy |