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stereodcam

Stereodcam is the node used to retrieve images from the videre stereo camera as part of the new image processing pipeline. Stereodcam retrieves messages from the camera and makes them available as a single raw_stereo message. Stereoproc then converts these raw_stereo messages into corresponding left, right, and disparity images. This allows us to log raw_disparity messages to a bag file and then replay them through different stereo processing algorithms.

Relevant Message Types

Stereodcam makes use of the messages in "sensor_msgs"

Relevant Nodes

stereodcam

stereodcam is located in the dcam package. It connects to the videre and publishes raw_stereo messages.

stereoproc

stereoproc is located in the stereo_image_proc package. It listens to raw_stereo messages and converts them to a usable format, including image rectification, colorization, and stereo processing.

stereo_view

stereo_view is located in the stereo_view package. It is a simple viewer and demonstrates appropriate usage of CvBridge and the TopicSynchronizer.

Important Namespaces

stereoproc listens on the topic raw_stereo, and stereodcam publishes raw_stereo. Thus, both nodes must be in the same namespace for them to communicate with eachother. Generally, we'll want both nodes to be in the stereo namespace, but this may change once we have multiple sets of stereocameras on the robot. Each node is configured using private parameters (thus residing in /stereo/stereodcam/ or /stereo/stereoproc/ namespaces).

Parameters

stereodcam

stereoproc

Running

First make sure that you have build stereodcam. It is part of the dcam package.

rosmake dcam

The following roslaunch file will start up the stereodcam node and stereoproc node:

<launch>
  <group ns="stereo">
    <node machine="stereo" pkg="dcam" type="stereodcam" respawn="false" name="stereodcam">
      <param name="videre_mode" type="str" value="none"/>
    </node>
    <node machine="stereo" pkg="stereo_image_proc" type="stereoproc"
          respawn="false" output="screen" name="stereoproc">
      <param name="do_rectify" type="bool" value="true"/>
      <param name="do_stereo" type="bool" value="True"/>
      <param name="do_calc_points" type="bool" value="True"/>
      <param name="do_keep_coords" type="bool" value="True"/>
    </node>
  </group>
</launch>

Note that due to a bug in roslaunch Ticket #1300, both nodes need the name attribute set in order for the private boolean params to be set. Otherwise, the params will take their default values, and you'll probably get unexpected results (like a black image because the exposure is too short).

A slightly longer version can be found in the file videre.launch in the package dcam which also shows how to set exposure, brightness, and gain.

Once this script has been launched:

ssh prg4 %  connect to the node on the machine with the firewire interface
roscd dcam
roslaunch videre.launch

(troubleshooting)

You can view it using the stereo_view node: rosrun stereo_view stereo_view

You can change some of the parameters, such as exposure, brightness and gain, online using rosparam set <parameter> <value>, and then running dcam/bin/check_params. For example:

rosparam set stereo/stereodcam/exposure 450
roscd dcam
./bin/check_params

(on the videre cameras, exposure ranges between 0-529, corresponding to a number of rows in the image.) Note that if the exposure, gain, etc. are set to "auto", the videre cameras cannot return their actual value.

Recording

When recording it is best practice to simply record the raw_stereo message such as:

rosbag record -O bags/myviderebag stereo/raw_stereo

Note: when playing back, you will need to have the stereoproc node running

stereodcam

Stereodcam is the node used to retrieve images from the videre stereo camera as part of the new image processing pipeline. Stereodcam retrieves messages from the camera and makes them available as a single raw_stereo message. Stereoproc then converts these raw_stereo messages into corresponding left, right, and disparity images. This allows us to log raw_disparity messages to a bag file and then replay them through different stereo processing algorithms.

Relevant Message Types

Stereodcam makes use of the messages in "sensor_msgs"

Relevant Nodes

stereodcam

stereodcam is located in the dcam package. It connects to the videre and publishes raw_stereo messages.

stereoproc

stereoproc is located in the stereo_image_proc package. It listens to raw_stereo messages and converts them to a usable format, including image rectification, colorization, and stereo processing.

stereo_view

stereo_view is located in the stereo_view package. It is a simple viewer and demonstrates appropriate usage of CvBridge and the TopicSynchronizer.

Important Namespaces

stereoproc listens on the topic raw_stereo, and stereodcam publishes raw_stereo. Thus, both nodes must be in the same namespace for them to communicate with eachother. Generally, we'll want both nodes to be in the stereo namespace, but this may change once we have multiple sets of stereocameras on the robot. Each node is configured using private parameters (thus residing in /stereo/stereodcam/ or /stereo/stereoproc/ namespaces).

Parameters

stereodcam

stereoproc

Running

First make sure that you have build stereodcam. It is part of the dcam package.

rosmake dcam

The following roslaunch file will start up the stereodcam node and stereoproc node:

<launch>
  <group ns="stereo">
    <node machine="stereo" pkg="dcam" type="stereodcam" respawn="false" name="stereodcam">
      <param name="videre_mode" type="str" value="none"/>
    </node>
    <node machine="stereo" pkg="stereo_image_proc" type="stereoproc"
          respawn="false" output="screen" name="stereoproc">
      <param name="do_rectify" type="bool" value="true"/>
      <param name="do_stereo" type="bool" value="True"/>
      <param name="do_calc_points" type="bool" value="True"/>
      <param name="do_keep_coords" type="bool" value="True"/>
    </node>
  </group>
</launch>

Note that due to a bug in roslaunch Ticket #1300, both nodes need the name attribute set in order for the private boolean params to be set. Otherwise, the params will take their default values, and you'll probably get unexpected results (like a black image because the exposure is too short).

A slightly longer version can be found in the file videre.launch in the package dcam which also shows how to set exposure, brightness, and gain.

Once this script has been launched:

ssh prg4 %  connect to the node on the machine with the firewire interface
roscd dcam
roslaunch videre.launch

(troubleshooting)

You can view it using the stereo_view node: rosrun stereo_view stereo_view

You can change some of the parameters, such as exposure, brightness and gain, online using rosparam set <parameter> <value>, and then running dcam/bin/check_params. For example:

rosparam set stereo/stereodcam/exposure 450
roscd dcam
./bin/check_params

(on the videre cameras, exposure ranges between 0-529, corresponding to a number of rows in the image.) Note that if the exposure, gain, etc. are set to "auto", the videre cameras cannot return their actual value.

Recording

When recording it is best practice to simply record the raw_stereo message such as:

rosrecord -f bags/myviderebag stereo/raw_stereo

Note: when playing back, you will need to have the stereoproc node running


2024-11-16 17:48