/mecheye_ros_interface

Official ROS interface for Mech-Eye cameras.

Primary LanguageC++MIT LicenseMIT

ROS 1 Interface for Mech-Eye Industrial 3D Camera

This documentation provides instructions on using the ROS 1 interface for Mech-Eye Industrial 3D Camera.

If you have any questions or have anything to share, feel free to post on the Mech-Mind Online Community. The community also contains a specific category for development with Mech-Eye SDK.

Prerequisites

In order to use the ROS 1 interface, the following prerequisites must be satisfied:

  • Ubuntu version: 20.04 has been tested to work with this interface.

  • ROS version: ROS Noetic has been tested to work with this interface.

    Note: If you have multiple versions of ROS installed, make sure to set the ROS_DISTRO environment variable to the version you are about to use.

    • Execute the following command to check ROS's environment variables:
    printenv | grep ROS
    • Execute the following command to change the value of the ROS_DISTRO environment variable. Replace distro with the short name of the ROS version that you use.
    export ROS_DISTRO=distro
  • Dependencies:

    Package Version
    OpenCV >= 3
    PCL >= 1.8
    Mech-Eye SDK Latest
  • Mech-Eye SDK (latest version)

Install Dependencies

If you have installed "ros-noetic-desktop" successfully, execute the following commands to install the dependencies.

sudo apt install libopencv-dev
sudo apt install ros-noetic-cv-bridge
sudo apt install libpcl-dev
sudo apt install ros-noetic-pcl-conversions
sudo apt install python3-colcon-common-extensions

Install Mech-Eye SDK

Note: If you have installed Mech-Eye SDK before, please uninstall it first with the following command:

sudo dpkg -P MechEyeApi
  • If the system architecture is AMD64, execute the following command:

    sudo dpkg -i 'Mech-Eye_API_x.x.x_amd64.deb'
  • If the system architecture is ARM64, execute the following command:

    sudo dpkg -i 'Mech-Eye_API_x.x.x_arm64.deb'

Clone and Compile the Interface

Execute the following commands to clone and compile the interface:

mkdir -p ~/catkin_ws/src && cd ~/catkin_ws/src
git clone https://github.com/MechMindRobotics/mecheye_ros_interface.git
cd ~/catkin_ws
catkin_make

Use the Interface

  1. (Optional) Change the configurations in ~/catkin_ws/src/mecheye_ros_interface/launch/start_camera.launch according to your needs:

    • save_file: Set this argument to true to allow file saving to the /tmp/ directory. If you set this argument to false, the obtained data are not saved locally automatically.
    • camera_ip: If you want to connect to a specific camera by its IP address, change the value of this argument to the IP address of your camera. You also need to comment and uncomment the corresponding lines in ~/catkin_ws/src/mecheye_ros_interface/src/MechMindCamera.cpp.

    Note: Remember to run catkin_make again after making changes to the MechMindCamera.h and *.cpp.

  2. Open a terminal and execute the following command to start up the interface:

    source ~/catkin_ws/devel/setup.bash
    roslaunch mecheye_ros_interface start_camera.launch
  3. Enter the index number of the camera to which you want to connect, and press the Enter key.

  4. Open a new terminal, and execute the following command to invoke a service. Replace service_name with the actual name of the service, parameter_name with the actual name of the parameter, and parameter_value with the actual value of the parameter.

    Note: For example commands of each service, refer to the Services section.

    source ~/catkin_ws/devel/setup.bash
    rosservice call [/service_name] "{parameter_name: parameter_value}"

Topics

The following topics are provided:

  • /mechmind/camera_info: Camera intrinsic parameters.

  • /mechmind/color_image: 2D image encoded as "bgr8".

  • /mechmind/stereo_color_image_left: The left stereo 2D image encoded as "bgr8".

  • /mechmind/stereo_color_image_right: The right stereo 2D image encoded as "bgr8".

  • /mechmind/depth_map: Depth map encoded as a single-channel image, each channel containing a 32-bit float number.

  • /mechmind/point_cloud: Point cloud data.

  • /mechmind/textured_point_cloud: Textured point cloud data.

    Note: For the DEEP and LSR series, Mech-Eye SDK 2.3.4, the point cloud is not textured correctly when the point cloud unit is set to m. This issue will be fixed in Mech-Eye SDK 2.4.0. As a workaround, you can comment out line 127 in MechMindCamera.cpp.

Services

Data Acquisition

Invoke this service to obtain a 2D image.

Example:

rosservice call /capture_color_image

Invoke this service to obtain a depth map.

Example:

rosservice call /capture_depth_map

Invoke this service to obtain an untextured point cloud.

Example:

rosservice call /capture_point_cloud

Invoke this service to obtain a textured point cloud.

Example:

rosservice call /capture_textured_point_cloud

Invoke this service to obtain a stereo 2D image.

Note: This service is only available for the following models: DEEP, LSR S, LSR L, LSR XL, and PRO XS.

Example:

rosservice call /capture_stereo_color_images

Manage Parameter Groups

Invoke this service to obtain the names of all available parameter groups.

Example:

rosservice call /get_all_user_sets

Invoke this service to obtain the name of the currently selected parameter group.

Example:

rosservice call /get_current_user_set

Invoke this service to select the parameter group to use.

This service has one parameter:

  • value (string): the name of the parameter group to be selected.

Example: Select the "123" parameter group.

rosservice call /set_current_user_set "{value: '123'}"

Note: Parameter group names that consist of numbers only must be surrounded by single quotation marks.

Invoke this service to add a parameter group. The newly added parameter group is automatically selected as the current parameter group.

This service has one parameter:

  • value (string): the name of the parameter group to be added.

Example: Add a parameter group named "123".

rosservice call /add_user_set "{value: '123'}"

Note: Parameter group names that consist of numbers only must be surrounded by single quotation marks.

Invoke this service to delete the specified parameter group.

This service has one parameter:

  • value (string): the name of the parameter group to be deleted.

Example: Delete the parameter group named "123".

rosservice call /delete_user_set "{value: '123'}"

Note: Parameter group names that consist of numbers only must be surrounded by single quotation marks.

Obtain Camera Information

Invoke this service to print the following information of the currently connected camera:

  • Model
  • Serial number
  • Hardware version
  • Firmware version
  • IP address
  • Subnet mask
  • IP address assigment method
  • Port

Example:

rosservice call /device_info

Adjust Camera Parameters

Note: The functions of obtaining and adjusting camera parameter values have been restructured. Mech-Eye SDK 2.3.4 and above provide services according to the data types of the camera parameters. To obtain or adjust the value of a camera parameter, call the service corresponding to the data type of the camera parameter and enter the name of the camera parameter as the service's parameter. The data types and names of the camera parameters can be found in the header files in the installation path of Mech-Eye SDK: /opt/mech-mind/mech-eye-sdk/include/area_scan_3d_camera/parameters/.

The following data types of camera parameters are distinguished:

  • _Int
  • _Float
  • _Bool
  • _Enum
  • _Roi
  • _Range
  • _FloatArray

Invoke this service to obtain the value of the specified _Int-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the Scan2DExpectedGrayValue parameter.

rosservice call /get_int_parameter "{name: Scan2DExpectedGrayValue}"

Invoke this service to set the value of the specified _Int-type camera parameter.

This service has two parameters:

  • name (string): the name of the camera parameter.
  • value (int): the new value of the camera parameter.

Example: Set the value of the Scan2DExpectedGrayValue parameter to 101.

rosservice call /set_int_parameter "{name: Scan2DExpectedGrayValue, value: 101}"

Invoke this service to obtain the value of the specified _Float-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the Scan2DExposureTime parameter.

rosservice call /get_float_parameter "{name: Scan2DExposureTime}"

Invoke this service to set the value of the specified _Float-type camera parameter.

This service has two parameters:

  • name (string): the name of the camera parameter.
  • value (float): the new value of the camera parameter.

Example: Set the value of the Scan2DExposureTime parameter to 40.1.

rosservice call /set_float_parameter "{name: Scan2DExposureTime, value: 40.1}"

Invoke this service to obtain the value of the specified _Bool-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the Scan2DToneMappingEnable parameter.

rosservice call /get_bool_parameter "{name: Scan2DToneMappingEnable}"

Invoke this service to set the value of the specified _Bool-type camera parameter.

This service has two parameters:

  • name (string): the name of the camera parameter.
  • value (bool): the new value of the camera parameter.

Example: Set the value of the Scan2DToneMappingEnable parameter to True.

rosservice call /set_bool_parameter "{name: Scan2DToneMappingEnable, value: True}"

Invoke this service to obtain the value of the specified _Enum-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the Scan2DExposureMode parameter.

rosservice call /get_enum_parameter "{name: Scan2DExposureMode}"

Invoke this service to set the value of the specified _Enum-type camera parameter.

This service has two parameters:

  • name (string): the name of the camera parameter.
  • value (string): the new value of the camera parameter.

Example: Set the value of the Scan2DExposureMode parameter to Timed.

rosservice call /set_enum_parameter "{name: Scan2DExposureMode, value: Timed}"

Invoke this service to obtain the value of the specified _Roi-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the Scan2DROI parameter.

rosservice call /get_roi_parameter "{name: Scan2DROI}"

Invoke this service to set the value of the specified _Roi-type camera parameter.

This service has five parameters:

  • name (string): the name of the camera parameter.
  • x (uint32): the new x-coordinate of the upper-left corner of the ROI.
  • y (uint32): the new y-coordinate of the upper-left corner of the ROI.
  • width (uint32): the new width of the ROI.
  • height (uint32): the new height of the ROI.

Example: Set the value of the Scan2DROI parameter to [20, 20, 600, 800] (which is an ROI that is 600 px wide, 800 px high and has its upper-left corner at the (20,20) pixel).

rosservice call /set_roi_parameter "{name: Scan2DROI, x: 20, y: 20, width: 600, height: 800}"

Invoke this service to obtain the value of the specified _Range-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the DepthRange parameter.

rosservice call /get_range_parameter "{name: DepthRange}"

Invoke this service to set the value of the specified _Range-type camera parameter.

This service has three parameters:

  • name (string): the name of the camera parameter.
  • lower (int32): the new minimum value of the camera parameter's value range.
  • upper (int32): the new maximum value of the camera parameter's value range.

Example: Set the value of the DepthRange parameter to 200–1000.

rosservice call /set_range_parameter "{name: DepthRange, lower: 200, upper: 1000}"

Invoke this service to obtain the value of the specified _FloatArray-type camera parameter.

This service has one parameter:

  • name (string): the name of the camera parameter.

Example: Obtain the value of the Scan2DHDRExposureSequence parameter.

rosservice call /get_float_array_parameter "{name: Scan2DHDRExposureSequence}"

Invoke this service to set the value of the specified _FloatArray-type camera parameter.

This service has two parameters:

  • name (string): the name of the camera parameter.

  • array (float64[]): the new value of the camera parameter.

    Note: The possible number of elements in the sequence and the possible value range of each element can be found in the header files.

Example: Set the value of the Scan2DHDRExposureSequence parameter to [30.0, 35.5, 40.0].

rosservice call /set_float_array_parameter "{name: Scan2DHDRExposureSequence, array: [30.0,35.5,40.0]}"