#Intel® RealSense™ Technology - ROS Integration
###Configuration:
| Version | Best Known (indigo) | Best Known (kinetic) |
|---|---|---|
| OS | Ubuntu 14.04.4 LTS | Ubuntu 16.04 LTS |
| Kernel | 4.4.0-34-generic | 4.4.0-34-generic |
| Backend | video4linux | video4linux |
| librealsense | 1.11.0 | 1.11.0 |
| R200 Firmware | 1.0.72.06 | 1.0.72.06 |
| F200 Firmware | 2.60.0.0 | 2.60.0.0 |
| SR300 Firmware | 3.10.10.0 | 3.10.10.0 |
| ZR300 Firmware | Camera: 2.0.71.20, Adapter: 1.27.0.0, Motion Module: 1.23.0.0 | Camera: 2.0.71.20, Adapter: 1.27.0.0, Motion Module: 1.23.0.0 |
###Installation: To begin with, ensure that ROS is installed. (See wiki.ros.org/ROS/Installation for instructions). Then, either install the realsense_camera ROS debian package or build it from source.
####Installing the ROS Debian Package
-
Install the realsense_sense camera package. Replace
<*distro*>withkineticorindigo.sudo apt-get install ros-<*distro*>-realsense-cameraThis will also install the required
ros-<*distro*>-librealsenselibrary on your system. -
librealsense 0.9.2 and earlier require a few extra, manual steps to enable the use of the library.
- Clone the librealsense GitHub repository:
git clone https://github.com/IntelRealSense/librealsense.git cd librealsense git checkout -b b0.9.2 v0.9.2- Follow the instructions for Video4Linux backend ONLY. Only one of the three options for Step 3 should be completed
####Building the Package from Source NOTE: Ensure that the compatible librealsense version specifed in the Configuration section is installed.
- Create a local catkin workspace (see wiki.ros.org for instructions).
- Clone the source from https://github.com/intel-ros/realsense.git.
- Run
rosdep install --skip-keys=librealsense --from-paths -i <src-dir of cloned realsense repo>to install package dependencies. - Compile the realsense_camera package by executing the
catkin_makecommand. Successful execution of command will build target “realsense_camera_nodelet”
Sample launch files are available in launch
###Package Features:
####Subscribed Topics None
####Published Topics (default) Color camera
camera/color/image_raw (sensor_msgs/Image)
Color rectified image. RGB format.
camera/color/camera_info
Calibration data
Depth camera
camera/depth/image_raw (sensor_msgs/Image)
uint16 depths in mm
camera/depth/camera_info
Calibration data
camera/depth/points (sensor_msgs/PointCloud2)
Registered XYZRGB point cloud. By default, pointcloud is disabled.
IR camera
camera/ir/image_raw (sensor_msgs/Image)
camera/ir/camera_info
Calibration data
IR2 camera: Available only for R200 and ZR300 cameras.
camera/ir2/image_raw (sensor_msgs/Image)
camera/ir2/camera_info
Calibration data
Fisheye camera: Available only for ZR300 cameras.
camera/fisheye/image_raw (sensor_msgs/Image)
camera/fisheye/camera_info
Calibration data
IMU: Available only for ZR300 cameras.
camera/imu/data_raw (sensor_msgs/Imu)
Each imu topic message will either contain angular velocity or linear acceleration data. The element 0 of the associated covariance matrix will be set to -1 to indicate the absence of data. E.g. If the topic message does not contain angular velocity data, then the element 0 of the angular velocity covariance matrix will be set to -1.
This topic message does not contain orientation data and hence the element 0 of the orientation covariance matrix will always be -1.
####Services get_settings (camera/driver/get_settings) Gets the current value of the supported camera options in "options:value" format separated by semicolon. set_power < true/false > (camera/driver/set_power < true/false >) # true - to power on the camera, false - to power off the camera Sets camera power to turn camera on/off. It turns off the camera only if camera has no subscribers. Otherwise it returns false. force_power < true/false > (camera/driver/force_power < true/false >) # true - to power on the camera, false - to forcefully power off the camera Sets camera power to turn camera on/off. It turns off the camera regardless of number of subscribers. is_powered (camera/driver/is_powered) Gets current state of camera power. It checks whether camera is on or off and returns true or false respectively. get_imu_info (camera/driver/get_imu_info): Available only for ZR300 cameras. Gets the IMU intrinsic data. Contains the custom IMUInfo.msg for the "accel" and "gyro" IMU sensors. Refer to IMUInfo.msg Definition
####Transform Frames rostopic echo /tf_static View the static camera transforms generated by the camera nodelet. You may refer to the ROS tf wiki for more commands.
####Static Parameters
serial_no (string, default: blank)
Specify the serial_no to uniquely connect to a camera, especially if multiple cameras are detected by the nodelet.
You may get the serial_no from the info stream by launching the default launch file.
usb_port_id (string, default: blank)
Alternatively to serial_no, this can be used to connect to a camera by its USB Port ID, which is a
Bus Number-Port Number in the format "Bus#-Port#". If used with serial_no, both must match correctly for
camera to be connected.
camera_type (string, default: blank)
Specify the type of the camera - "R200", "F200", "SR300" or "ZR300".
mode (string, default: preset)
Specify the mode to start camera streams. Mode comprises of height, width and fps.
Preset mode enables default values whereas Manual mode enables the specified parameter values.
enable_depth (bool, default: true)
Specify if to enable or not the depth and infrared camera(s).
Note: Infrared stream(s) will be enabled or disabled along with depth stream.
depth_width (int, default: 480 for R200 and ZR300, 640 for F200 and SR300)
Specify the depth camera width resolution.
depth_height (int, default: 360 for R200, 480 for F200 and SR300)
Specify the depth camera height resolution.
depth_fps (int, default: 60)
Specify the depth camera FPS
enable_color (bool, default: true)
Specify if to enable or not the color camera.
color_width (int, default: 640)
Specify the color camera width resolution.
color_height (int, default: 480)
Specify the color camera height resolution.
color_fps (int, default: 60)
Specify the color camera FPS
enable_fisheye (bool, default: true): Available only for ZR300 cameras.
Specify if to enable or not the fisheye camera.
fisheye_width (int, default: 640): Available only for ZR300 cameras.
Specify the fisheye camera width resolution.
fisheye_height (int, default: 480): Available only for ZR300 cameras.
Specify the fisheye camera height resolution.
fisheye_fps (int, default: 60): Available only for ZR300 cameras.
Specify the fisheye camera FPS
enable_imu (bool, default: true): Available only for ZR300 cameras.
Specify if to enable or not the IMU sensor.
enable_pointcloud (bool, default: false)
Specify if to enable or not the native pointcloud.
By default, it is set to false due to performance issues.
enable_tf (bool, default: true)
Specify if to enable or not the transform frames.
base_frame_id (string, default: camera_link)
Specify the base frame id of the camera.
depth_frame_id (string, default: camera_depth_frame)
Specify the depth frame id of the camera.
depth_optical_frame_id (string, default: camera_depth_optical_frame)
Specify the depth optical frame id of the camera.
color_frame_id (string, default: camera_rgb_frame)
Specify the color frame id of the camera.
color_optical_frame_id (string, default: camera_rgb_optical_frame)
Specify the color optical frame id of the camera.
ir_frame_id (string, default: camera_ir_frame)
Specify the IR frame id of the camera.
ir_optical_frame_id (string, default: camera_ir_optical_frame)
Specify the IR optical frame id of the camera.
ir2_frame_id (string, default: camera_ir2_frame): Available only for R200 and ZR300 cameras.
Specify the IR2 frame id of the camera.
ir2_optical_frame_id (string, default: camera_ir2_optical_frame): Available only for R200 and ZR300 cameras.
Specify the IR2 optical frame id of the camera.
fisheye_frame_id (string, default: camera_fisheye_frame): Available only for ZR300 cameras.
Specify the fisheye frame id of the camera.
fisheye_optical_frame_id (string, default: camera_fisheye_optical_frame): Available only for ZR300 cameras.
Specify the fisheye optical frame id of the camera.
imu_frame_id (string, default: camera_imu_frame): Available only for ZR300 cameras.
Specify the IMU frame id of the camera.
imu_optical_frame_id (string, default: camera_imu_optical_frame): Available only for ZR300 cameras.
Specify the IMU optical frame id of the camera.
####Dynamic Parameters
For R200 cameras, refer to r200_params.cfg
For F200 cameras, refer to f200_params.cfg
For SR300 cameras, refer to sr300_params.cfg
For ZR300 cameras, refer to zr300_params.cfg
Note: For Autoexposure edge parameters, max value will go only upto the bounds of the infrared image. E.g. For 320x240 infrared image, valid values are within 0-319 and 0-239)
Use rqt_reconfigure GUI to view and edit the parameters that are accessible via dynamic_reconfigure. Command to launch GUI:
$ rosrun rqt_reconfigure rqt_reconfigure
Command to change dynamic parameters using commandline:
$ rosrun dynamic_reconfigure dynparam set /<node> <parameter_name> <value>
E.g. $ rosrun dynamic_reconfigure dynparam set /R200Nodelet color_backlight_compensation 2
###Running the nodelet: ####Getting Started Use the following command to launch the camera nodelet. You will notice the camera light up.
For R200 cameras
$ roslaunch realsense_camera r200_nodelet_default.launch
For F200 cameras
$ roslaunch realsense_camera f200_nodelet_default.launch
For SR300 cameras
$ roslaunch realsense_camera sr300_nodelet_default.launch
For ZR300 cameras
$ roslaunch realsense_camera zr300_nodelet_default.launch
Sample launch files are available in launch. Make sure the correct "camera_type" is specified to launch the desired camera.
View using RVIZ:
For color and infrared stream(s), you can open RVIZ and load the published topics.
You can also open RVIZ and load the provided RVIZ configuration file: realsenseRvizConfiguration1.rviz.
$ roscd realsense_camera
$ rosrun rviz rviz -d rviz/realsenseRvizConfiguration1.rviz
View using other commands: For color stream
$ rosrun image_view image_view image:=/camera/color/image_raw
For depth stream
$ rostopic echo /camera/depth/image_raw
$ rostopic echo /camera/depth/camera_info
For pointcloud
$ rosrun pcl_ros convert_pointcloud_to_image input:=/camera/depth/points output:=/my_image
$ rosrun image_view image_view image:=/my_image
For viewing supported camera settings with current values:
$ rosservice call /camera/get_settings
####Launching Multiple Cameras Note: The following example is based on R200 cameras. Similar options are applicable to F200, SR300 and ZR300 cameras too, just by updating the "camera_type".
For running multiple cameras simultaneously:
Option 1: Using single nodelet manager for all the cameras
- Use "r200_nodelet_multiple_cameras.launch".
Option 2: Using separate nodelet manager for each camera
- Create ".launch" files similar to "r200_nodelet_rgbd.launch" for each camera.
- You may choose to include (or not) the "processing.launch.xml" based on your requirement.
- Launch the ".launch" files for each camera in separate terminals.
For either option you must:
- Update the "camera" and either the "serial_no" or "usb_port_id" argument with unique values for each camera.
- "camera" should be a user friendly string that follows the ROS Names convention. (E.g. "camera1")
- "serial_no" is the camera serial number and can be found by running the nodelet and viewing the terminal output
- "usb_port_id" is Bus Number-Port Number in "Bus#-Port#" format, and can be found by using
lsusb -t - if both "serial_no" and "usb_port_id" are set, both much match the same camera
###Unit Tests: The Unit Tests can be executed using either of the methods:
Using rostest command with test files
$ rostest realsense_camera <test_filename>
E.g. rostest realsense_camera r200_nodelet_disable_color.test
Using rosrun command
$ roslaunch realsense_camera r200_nodelet_modify_params.launch
$ rosrun realsense_camera realsense_camera_test <args>
E.g. rosrun realsense_camera realsense_camera_test enable_depth 1 depth_encoding 16UC1 depth_height 360 depth_width 480 depth_step 960 enable_color 1 color_encoding rgb8 color_height 480 color_width 640 color_step 1920
Both these methods first starts the nodelet and then executes all the unit tests.
Sample test files are available in "realsense_camera/test" directory
###Developer API: Refer to the following:
###Limitations:
-
Currently, the camera nodelet only supports the following formats:
- Color stream: "RGB8"
- Depth stream: "Z16"
- Infrared stream(s): "Y8" for R200, F200 and ZR300. "Y16" for SR300.
- Fisheye stream: "RAW8"
-
Generating a Depth Registered Point Cloud is very memory intensive. E.g. The topic /camera/depth_registered/points, generated by launch file "r200_nodelet_rgbd.launch", works best at 30 fps using 640x480 resolution on a system with 16GB of RAM.
-
The camera does not provide hardware based depth registration/projector data. Hence the launch file "r200_nodelet_rgbd.launch" will not generate data for the following topics:
- /camera/depth_registered/hw_registered/image_rect_raw
- /camera/depth_registered/hw_registered/image_rect
- /camera/depth_registered/image
- /camera/depth/disparity
- /camera/depth_registered/disparity
-
The performance benchmark for multiple cameras launched at the same time has not been defined yet.
-
For ZR300 cameras, the transform between base frame and imu frame has been hardcoded until librealsense supports fetching this data during runtime.
###Errata:
-
The usb-port-id logic does not work for F200 and SR300 cameras due to a known librealsense Issue #220. Until it gets fixed, use serial_no when multiple F200 or SR300 cameras are connected to the system.
-
Multiple cameras can only be started from a single launch file for F200 and SR300 camera types; see Issue #93. This appears to be linked to the usb-port-id librealsense Issue #220. Until it gets fixed, use a single launch file for multiple F200 or SR300 cameras.
-
For F200 and SR300 cameras, native pointcloud is not generated even after enabling pointcloud Issue #89. Unlikely to be fixed as current plan is to remove native point cloud generation.