Track planning method of redundant space mechanical arm for on-track catching

A technology for space manipulators and trajectory planning, which is applied in manipulators, program-controlled manipulators, manufacturing tools, etc., and can solve problems such as the inability to use space manipulators and the difficulty in applying aerospace tasks

Active Publication Date: 2013-04-03
BEIJING INST OF CONTROL ENG
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As a result, existing algorithms cannot be applied to space manipulators wi

Method used

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  • Track planning method of redundant space mechanical arm for on-track catching
  • Track planning method of redundant space mechanical arm for on-track catching
  • Track planning method of redundant space mechanical arm for on-track catching

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0105] Embodiment 1 is mainly used to verify the effectiveness of the algorithm for roughly capturing segments.

[0106] (1) A 7-DOF mechanical arm is designed. The geometric parameters of the manipulator are shown in Table 1. The installation point of the first section of the arm is represented in the base coordinate system. The initial configuration when each joint angle is 0 and the positive direction of each corner Figure 4 , The black line in the figure represents the robotic arm, the black circles represent the joints connecting each segment of the robotic arm, and the arrows next to the joints indicate the positive direction of the rotation angle of each joint. At this time, the base coordinate system coincides with the body coordinate system of each arm, see Figure 4 The coordinate system in oxyz. Figure 4 Among them, 6 is the base mounting point of the robotic arm, and 7 is the end effector of the robotic arm, that is, the seventh section arm. The following uses the ...

Embodiment 2

[0117] Example 2 gives the control method of the entire capture process of the redundant space manipulator.

[0118] (1) Install the robotic arm in Example 1 on a space operation platform to capture a non-cooperative target. Firstly, the capture task requirements and sensor measurement are used to determine the capture point on the non-cooperative target, and calculate the position and posture of the end effector required to capture the target.

[0119] (2) Divide the entire capture process into a rough capture segment and a fine capture segment. The initial state of the rough capture segment is the current configuration of the robotic arm, and the end state of the rough capture segment is set as the end effector of the robotic arm is located at a certain distance (for example, 20 cm) above the capture point.

[0120] (3) From the position and posture of the end effector at the end of the rough capture stage set in the previous step, the collision-free target configuration algorithm...

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Abstract

The invention relates to a track planning method of a redundant space mechanical arm for on-track catching. The catching operation of the space mechanical arm is divided into a rough catching stage and a fine catching stage, so that problems are simplified. By aiming at outstanding problems of different stages, different planning algorithms are adopted. In the rough catching stage, a track searching algorithm based on configuration space is adopted, and the algorithm is based on the test in the configuration space; and in the fine catching stage, a pseudo-inverse algorithm based on kinematics is adopted, and the final precise catching is guaranteed by compensating the relative movement of a target.

Description

Technical field [0001] The invention relates to a trajectory planning method for on-orbit capture by a redundant space manipulator, which belongs to the field of spacecraft attitude control. Background technique [0002] In the orbital capture operation of the space manipulator, in order to save fuel, the position of the space control platform is not controlled, and only the attitude of the space control platform is stably controlled. It is a free-flying robot with controlled attitude, so it is included in the variables of the system model Only the joint angles of the robotic arm can be controlled arbitrarily. The basic requirement of trajectory planning is to target the desired position and orientation of the end effector to determine the angular position, angular velocity and angular acceleration trajectory of each joint angle through a certain algorithm, so that the controller can realize the grip of the robotic arm. Capture operation. Redundancy here means that the robotic ...

Claims

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Application Information

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IPC IPC(8): B25J9/16
Inventor 汤亮何英姿王悦王大轶魏春岭
Owner BEIJING INST OF CONTROL ENG
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