| cv-bridge |
3.2.1-1 |
This contains CvBridge, which converts between ROS2 Image messages and OpenCV images. |
meta-ros2-humble |
| cv-bridge |
4.1.0-1 |
This contains CvBridge, which converts between ROS2 Image messages and OpenCV images. |
meta-ros2-jazzy |
| cv-bridge |
4.1.0-2 |
This contains CvBridge, which converts between ROS2 Image messages and OpenCV images. |
meta-ros2-kilted |
| cv-camera |
0.4.0-1 |
cv_camera uses OpenCV capture object to capture camera image. This supports camera_image and nodelet. |
meta-ros1-melodic |
| cv-camera |
0.6.0-1 |
cv_camera uses OpenCV capture object to capture camera image. This supports camera_image and nodelet. |
meta-ros1-noetic |
| flir-boson-usb |
1.2.1-1 |
A simple USB camera driver for the FLIR BOSON using OpenCV |
meta-ros1-melodic |
| grid-map-cv |
1.6.4-2 |
Conversions between grid maps and OpenCV images. |
meta-ros1-melodic |
| grid-map-cv |
1.6.4-1 |
Conversions between grid maps and OpenCV images. |
meta-ros1-noetic |
| grid-map-cv |
2.0.1-1 |
Conversions between grid maps and OpenCV images. |
meta-ros2-humble |
| grid-map-cv |
2.2.2-2 |
Conversions between grid maps and OpenCV images. |
meta-ros2-jazzy |
| grid-map-cv |
2.4.0-1 |
Conversions between grid maps and OpenCV images. |
meta-ros2-kilted |
| image-geometry |
1.13.0 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros1-melodic |
| image-geometry |
2.1.4-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-dashing |
| image-geometry |
2.1.4-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-eloquent |
| image-geometry |
2.2.1-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-foxy |
| image-geometry |
4.1.0-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-rolling |
| image-geometry |
1.16.2-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros1-noetic |
| image-geometry |
2.2.1-2 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-galactic |
| image-geometry |
3.2.1-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-humble |
| image-geometry |
4.1.0-1 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-jazzy |
| image-geometry |
4.1.0-2 |
`image_geometry` contains C++ and Python libraries for interpreting images geometrically. It interfaces the calibration parameters in sensor_msgs/CameraInfo messages with OpenCV functions such as image rectification, much as cv_bridge interfaces ROS sensor_msgs/Image with OpenCV data types. |
meta-ros2-kilted |
| phytec-vision-image |
1.0 |
This image is designed to show development of camera and imaging applications with openCV. |
meta-ampliphy |
| slic |
2.1.24-1 |
SLIC-Superpizel ROS Wrapper This file contains the class elements of the class Slic. This class is an implementation of the SLIC Superpixel algorithm by Achanta et al. [PAMI'12, vol. 34, num. 11, pp. 2274-2282]. This implementation is created for the specific purpose of creating over-segmentations in an OpenCV-based environment. |
meta-ros1-melodic |
| tuw-checkerboard |
0.1.1-1 |
The tuw_checkerboard package is designed to detect one checkerboard and to estimate the pose of the checkerboard relative to the camera. The detection itself is based on the opencv functions for checkerboards. |
meta-ros1-melodic |