Vision Project Configuration

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Before using this tutorial, you should have created a solution using the “Loading Randomly Stacked Target Objects” case project in the Robot Communication Configuration section.

In this tutorial, you will first learn the project workflow, and then deploy the project by adjusting the Step parameters to recognize the target objects’ poses and output the vision result.

In this tutorial, you will need to convert the model file of the target object in the CAD format into a point cloud matching model. Since it takes a long time to prepare the CAD model file, it is recommended to prepare the CAD model file of the target object before using this tutorial. You can download it by clicking here.
Video Tutorial: Vision Project Configuration

Introduction to the Project Workflow

In this tutorial, you need to configure the vision project using Mech-Vision and Mech-Viz. The process of how to configure a vision project is shown in the figure below.

project workflow

The phases of the vision project configuration process are explained below.

Phase Used software Description

Connect to the Camera and Acquire Images

Mech-Vision

Connect to the camera through the Mech-Vision’s “Capture Images from Camera” Step for image capturing purposes.

Recognize Target Objects

Mech-Vision

Perform a series of vision processing (point cloud preprocessing, 3D matching, deep learning inference, etc.) on image data through the Mech-Vision’s “3D Target Object Recognition” Step to quickly recognize target objects.

Adjust Poses

Mech-Vision

Use the “Adjust Poses V2” Step of the Mech-Vision software to transform the reference frame, adjust poses, sort poses, or filter poses output by the “3D Target Object Recognition” Step.

Locate Bin

Mech-Vision

You can use the Mech-Vision’s “Standard Bin Locating” Procedure to recognize the bin. The recognized bin pose will be sent to the Mech-Viz software for updating the bin model position.

Plan Robot Path

Mech-Vision & Mech-Viz

The “Output” Step of Mech-Vision sends the vision result (such as object center points, preprocessed point clouds, bin scene model names, bin center poses, etc.) to Mech-Viz.
The Mech-Viz project dynamically plans a collision-free robot motion path based on the vision result.

Output Planned Path

Mech-Viz

Upon receiving the Standard Interface command from the robot (used in this tutorial) or the PLC, Mech-Viz returns the planned collision-free robot motion path.
After completing the robot communication configuration and Mech-Vision project and Mech-Viz project configuration, Mech-Viz can output the planned path after each run.
You need to write the robot program to send the Standard Interface commands that trigger the Mech-Viz project to run and obtain the planned path from Mech-Viz. For details, refer to the instructions in the “Picking and Placing” section.

Adjust Step Parameters

In this section, you will deploy the project by adjusting the parameters of each Step.

The project in this section is the “Vis_Target_Objects_Recognition” project in the “Loading Randomly Stacked Target Objects” solution.

Capture Images from Camera

Step name

Capture Images from Camera

Phase

Connect to the Camera and Acquire Images

Illustration

acquire images from camera

Description

Connect to a real camera and configure relevant parameters to ensure that the camera can capture images normally.

  1. In the Graphical Programming Workspace of Mech-Vision, select the Capture Images from Camera Step, and click Select camera on the Step Parameters tab.

    select camera
  2. In the prompted Select camera and calibration parameter group window, click the image icon to the right of the camera serial number. When this icon turns into an image icon, the camera is connected successfully.

    connect camera

    After the camera is connected, click the Select parameter group button and select the calibrated parameter group with ETH/EIH and date.

    select calibration parameter group
    The calibration parameter group selected here is the one generated after the hand-eye calibration is completed.
  3. After the camera is connected and the parameter group is selected, the calibration parameter group, IP address, and ports of the camera will be obtained automatically. Make sure that Configuration parameter group is set to “Threaded rod”.

    camera other parameters
    • Click the Single Step Execution button of the Capture Images from Camera Step to trigger image capturing, double-click the “Camera Depth Map” and “Camera Color Image” data streams of the Step, and check whether the images were successfully captured from the camera in the Debug Output window.

      double click data flow line

If you can see a normal depth map and color image in the Debug Output window, the Mech-Vision software has successfully connected to the real camera and can capture images normally.

confirm image acquire

3D Target Object Recognition

Step name

3D Target Object Recognition

Phase

Recognize Target Objects

Illustration

target object recognition

Description

You need to set point cloud preprocessing parameters, make target object models in the target object editor, select the target object, set deep learning and recognition parameters, and configure output ports.

The "3D Target Object Recognition" Step provides a built-in visual "3D Target Object Recognition" tool. With the wizard, you can easily recognize target object poses in only three steps.

overall recognition configuration process

You can start parameter adjustment by opening the "3D Target Object Recognition" tool in either of the following ways.

  • Click the Config Wizard button on the Step block in the Graphical Programming Workspace.

  • In the Step Parameters tab, click the Config wizard button.

Point Cloud Preprocessing

Point cloud preprocessing converts the acquired image data to point clouds, detects edge point clouds, and filters out point clouds that do not meet the rules by setting valid point cloud recognition regions, thus improving subsequent recognition efficiency.

In this step, you need to set an effective recognition region to keep the interference factors out of the region to improve recognition efficiency. The recognition region should cover the bin and the target objects inside it, with an appropriate outward extension of 20 to 30 mm to accommodate the effects of minor changes in the bin position.

set 3d roi

Usually, keep the default values of other preprocessing parameters. If there are many noises in the scene, you can try adjusting relevant parameters. For details, refer to Point Cloud Preprocessing.

After parameter adjustment, you can click the Run Step button in the Preview preprocessing result area, and confirm that the preprocessing effect meets expectations in the Visualizing Space.

Target Object Selection and Recognition

  • Mech-Vision supports 3D matching and deep learning inference for target object recognition.

  • 3D matching is the process of fitting an object point cloud model onto the point cloud of an object in the scene, to find the poses of the objects in the scene. When 3D matching is used for recognition, you need to make a target object model (also known as a point cloud model or point cloud matching model).

  • When using deep learning inference for recognition, you need to use a deep learning model trained by the Mech-DLK software, and then use the deep learning model in the relevant Mech-Vision Steps to recognize objects, classify objects, and calculate object poses.

  • After adjusting the parameters, you can click the Run Step button in the View running results area, and confirm that the recognition result meets expectations in the Visualizing Space.

Make the Target Object Model

In this tutorial, a point cloud model of the target is generated using the target object’s CAD model file in STL format. You can download it by clicking here.

Please refer to Import STL File to Generate Point Cloud Model and Configure Pick Points Manually to make the point cloud matching model for the target object.

Precautions:

  • When the camera is used to acquire the point cloud data of the bolts, excessive smoothing of the point cloud may occur, which may lead to loss of thread details. Therefore, this tutorial generates the point cloud model by importing an STL file. In this tutorial, the provided STL model file has been simplified, as shown below.

    stl model
  • In the “Configure STL file” step, set unit according to the actual length of the target object, and select all views in the Set view area.

    configure stl file
  • In the “Set pick point” step, set a pick point for the point cloud model according to the actual situation. For detailed instructions, please refer to Set Pick Point. In this solution, a finger gripper is used to pick the part of the screw, so the pick point of the target object is set in the middle of the screw.

    set pickpoint tip
Configurations related to the end tool used for picking target objects can be suspended until the Mech-Viz project is configured.

After the target object model is created, close the Target Object Editor window to return to the "3D Target Object Recognition" tool interface, and click the Update target object button. If there is only one target object model in the target object editor of the solution, the tool will automatically select the target object model. If there are multiple target object models in the target object editor of the solution, please select the target object model to use.

select object model

Set Deep Learning Parameters

  1. In the Use deep learning area, enable the Assist recognition with deep learning option.

  2. Use the model package management tool to import the deep learning model package provided in this tutorial, or you can use Mech-DLK to train your own deep learning model package. For detailed instructions, please refer to Import the Deep Learning Model Package.

  3. In the Use deep learning area, select the imported model from the drop-down list of model packages.

    It may take some time to load the deep learning model for the first time. Please wait patiently.
  4. Click the Set ROI button to set the 2D ROI. For detailed instructions, please refer to Instructions for Setting 2D ROI.

  5. Adjust deep learning parameters: To avoid information loss on the edges of the masks output by the deep learning model, dilate the masks by 5 pixels to obtain more complete point cloud data of the target object.

set dl parameters

Set Matching Parameters

  1. In the Recognize target object area, disable the Auto-set matching mode option.

  2. Set Coarse matching mode to "Edge matching" and Fine matching mode to "Surface matching."

  3. Set Confidence threshold to 0.5 to remove incorrect matching results.

  4. Set Max outputs according to actual needs, such as 30. Minimize the number of outputs to reduce matching time while satisfying the path planning requirements.

    set matching parameters
Configure Output Ports

Select the following output ports for subsequent path planning and collision detection:

  • Port(s) related to object center point

  • Preprocessed point cloud

set output ports

Adjust Poses V2

Step name

Adjust Poses V2

Phase

Adjust Poses

Illustration

adjust poses

Description

Set parameters to transform poses, adjust poses, sort poses, and filter poses.

After obtaining the target object pose, you need to adjust the pose. The processing procedure is as follows.

adjust poses process

With the built-in pose adjustment tool in Mech-Vision, you can easily adjust object poses and optimize the picking sequence. You can start parameter adjustment by opening the pose adjustment tool in either of the following ways.

  • Click the Config Wizard button on the Step block in the Graphical Programming Workspace.

  • In the Step Parameters tab, click the Config wizard button.

Follow these steps to adjust parameters:

  1. Transform poses: In the Pose adjustment tab, transform poses from the camera reference frame to the robot reference frame.

    adjust reference frame
  2. Adjust poses: In the Pose adjustment tab, point the Z-axis of the poses to the reference pose directly above the bin.

    adjust pose direction
  3. Sort poses: In the Processing rules tab, sort poses by their Z values in the robot reference frame in descending order.

    sort poses
  4. Filter poses by angle: In the Processing rules tab, filter out poses that are obviously unpickable according to their Z-axis directions, reducing the time spent on path planning in Mech-Viz.

    filter poses
  5. Filter out poses out of ROI: In the Processing rules tab, set an ROI to determine whether the poses are in the ROI and keep only the poses in the ROI.

    The target region (3d_roi) is in the robot reference frame. To avoid filtering errors, you must reset the target region according to the actual extrinsic parameters.
    set 3d roi

Standard Bin Locating

Step name

Standard Bin Locating (custom Procedure)

Phase

Locate Bin

Illustration

locate bin

Description

Please set the name of the scene object that the bin will pose in the Mech-Viz project and the offset of the bin pose.

  1. In the Mech-Vision Graphical Programming Workspace, select the Standard Bin Locating Procedure, and in the Step Parameters tab in the lower-right corner of the interface, set the Strings parameter.

    The value of the Strings parameter will be used as the name of the "bin" scene object in the Mech-Viz project. The value of this parameter must be used as the name when configuring the bin scene object in the Mech-Viz project.
    adjust bin parameters
  2. Set the Translation distance parameter to half the height of the bin.

    The pose of the currently recognized bin is on the top surface of the bin. To ensure that the pose of the recognized bin can correspond to the center of the bin correctly, the recognition pose needs to be adjusted. This Procedure moves along the Z-axis of the bin reference frame, so a specific offset needs to be subtracted. Therefore, it is set to a negative value here.

Output

Step name

Output

Phase

Plan Robot Path (as prerequisites)

Illustration

procedure out

Description

Confirm that the information needed for path planning and collision detection can be output.

According to the requirements of path planning and collision detection, you need to output the following information to the Mech-Viz software:

  • Object center point (PoseList)

  • Target object name (StringList)

  • Point cloud with normals (Cloud(XYZ-Normal)): preprocessed point cloud

  • Scene object name (StringList): the name of the bin scene model

  • Scene object pose (PoseList): the bin center pose

Please make sure that all the above ports have data flow connections, and then click the Run button to confirm that the project can run successfully and output the vision result. You can check whether there are logs with vision results in the Vision tab of Mech-Vision’s log panel.

check output result

Path Planning

In this example, Mech-Viz is used to obtain the planned path. When using the Standard Interface communication mode, the Mech-Viz project and the robot side need to cooperate to implement the 3D vision-guided robot picking and placing process.

For details on how to configure the Mech-Viz project for path planning, please refer to the section Picking and Placing.

Now you have completed configuring the vision project.

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