UbiquityRobotics / raspicam_node

ROS node for camera module of Raspberry Pi
BSD 3-Clause "New" or "Revised" License
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raspberry-pi raspberry-pi-camera ros

raspicam_node

ROS node for the Raspberry Pi Camera Module. Works with both the V1.x and V2.x versions of the module. We recommend using the v2.x cameras as they have better auto gain, and the general image quality is better.

Installation

A binary can be found at https://packages.ubiquityrobotics.com/ follow the instructions there to add the repository.

Then run sudo apt install ros-kinetic-raspicam-node

Build Intructions

If you want to build from source instead of using the binary follow this section.

This node is primarily supported on ROS Kinetic, and Ubuntu 16.04, and that is what these instuctions presume.

Go to your catkin_ws cd ~/catkin_ws/src.

Download the source for this node by running

git clone https://github.com/UbiquityRobotics/raspicam_node.git

There are some dependencies that are not recognized by ros, so you need to create the file /etc/ros/rosdep/sources.list.d/30-ubiquity.list and add this to it.

yaml https://raw.githubusercontent.com/UbiquityRobotics/rosdep/master/raspberry-pi.yaml

Then run rosdep update.

Install the ros dependencies,

cd ~/catkin_ws
rosdep install --from-paths src --ignore-src --rosdistro=kinetic -y

Compile the code with catkin_make.

Running the Node

Once you have the node built, you can run it using a launch file.

For a V2.x camera, run roslaunch raspicam_node camerav2_1280x960.launch

For a V1.x camera, run roslaunch raspicam_node camerav1_1280x720.launch

Use rqt_image_view on a connected computer to view the published image.

Configuring the node with dynamic reconfigure

The raspicam_node supports dynamically reconfiguring the camera parameters.

Run the dynamic reconfigure node on a connected computer:

rosrun rqt_reconfigure rqt_reconfigure

It should bring up a user interface like the one below. Paramaters can be dynamically adjusted via this interface.

rqt_reconfigure

Troubleshooting

  1. Make sure that your user is in the video group by running groups|grep video.

  2. If you get an error saying: Failed to create camera component, make sure that the camera cable is properly seated on both ends, and that the cable is not missing any pins.

  3. If the publish rate of the image over the network is lower than expected, consider using a lower resolution to reduce the amount of bandwidth required.

Node Information

Topics:

Services:

Parameters:

Calibration

The raspicam_node package contains a calibration file for the raspberry PI camera versions 1 and 2.

A tutorial Monocular Camera Calibration tutorial shows how to calibrate a single camera.

The 8x6 checkerboard and the 7x6 checkerboard are rather large and require specialized printers to print out at full scale. They can be printed on more common printer sizes with auto scaling turned on. Be sure to carefully measure the square size in millimeters and convert to meters by dividing by 1000.

Running calibration requires raw publishing enabled. Add enable_raw:=true to the camera roslaunch command.

If you are not sure which launch file to use camerav2_1280x960_10fps.launch is probably what you are looking for.

On the Pi

roslaunch raspicam_node camerav2_1280x960_10fps.launch enable_raw:=true

On your workstation:

rosrun camera_calibration cameracalibrator.py --size 8x6 --square 0.074 image:=/raspicam_node/image camera:=/raspicam_node

Motion vectors

The raspicam_node is able to output motion vectors calculated by the Raspberry Pi's hardware video encoder. These motion vectors can be used for various applications such as motion detection.

On the Pi, add enable_imv:=true to the camera roslaunch command:

roslaunch raspicam_node camerav2_410x308_30fps.launch enable_imv:=true

On your workstation, build raspicam_node so that the MotionVectors ROS message is recognized by Python:

cd ~/catkin_ws
catkin_make
source ~/catkin_ws/devel/setup.bash

Finally, run script imv_view.py to visualize the motion vectors:

rosrun raspicam_node imv_view.py