Waypoint Type

You are currently viewing the documentation for version 1.8.1. To access documentation for other versions, click the "Switch Version" button located in the upper-right corner of the page.

■ To use the latest version, visit the Mech-Mind Download Center to download it.

■ If you're unsure about the version of the product you are using, please contact Mech-Mind Technical Support for assistance.

Waypoint Type Description

Tool

The waypoint will be represented by the X, Y, Z values, Euler angles, quaternions or rotation vectors in the tool reference frame.
The tool pose describes the position of the tool reference frame relative to the robot base reference frame. It focuses on the positional relationship between the tool and the working space and describes the position and orientation of the tool, such as robotic claw, and welding torch, when the robot performs a task.

Joint positions (JPs)

The waypoint will be represented by the joint positions of the robot.
Joint positions represents the rotation angles of each joint of the robot relative to its initial position or reference position. This description can represent the state of each joint in line with the hardware structure of the robot.

Workobject pose

The waypoint will be represented by the X, Y, Z values, Euler angles, quaternions or rotation vectors in the object reference frame. It focuses on describing the position and orientation of the actual workobjects that need to be operated or handled when the robot is performing tasks.
Workobject pose is the pose of a certain point on the workobject relative to the robot reference frame.

The method to determine the waypoint type is shown in the figure below.

detailed parameter img
Parameter Description

Edit pose

Enter quaternions or Euler angles directly to adjust the pose. You can also copy and paste the pose.

Transform pose

Transform the current pose to a new one. It is suitable for fine-tuning.

Rectify pose

Set the coordinate of P1, P2, and P3 according to the instruction, and then rectify the object pose with the three-point method. It is suitable for scenarios where the objects are tilted and their poses cannot be easily determined. For instance, when a cuboid tilts, its pose is hard to determine. Rectify pose can be used here to calculate the pose of the cuboid and therefore the robot can move to the rectified pose.

Edit JPs

Similar to Edit Pose above; edit the JPs by copying and pasting or editing the JPs in either radians or degrees, which can be switched based on the actual requirement.

move_type_icon1

Click to move the robot back to the specified waypoint.

move_type_icon2

Get the pose of the simulated robot and set it as the waypoint.

move_type_icon3

Show all the joint position solutions to the current waypoint.

We Value Your Privacy

We use cookies to provide you with the best possible experience on our website. By continuing to use the site, you acknowledge that you agree to the use of cookies. If you decline, a single cookie will be used to ensure you're not tracked or remembered when you visit this website.