Movement flexibility comprehensive evaluation and optimization method of redundant robot

A technology for robot motion and comprehensive evaluation, applied in the direction of instruments, genetic rules, calculations, etc., can solve problems such as insufficient research on the comprehensive optimization of motion flexibility indicators, etc.

Active Publication Date: 2016-09-21
JINLING INST OF TECH
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Problems solved by technology

However, in the face of a specific task space, especially in the research on the operational performance of series robots with redundant joints, there is insufficient consideration. Most of the research objects are robots with less than six degrees of freedom, and the comprehensive optimization of motion flexibility indicators is relatively limited. few

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  • Movement flexibility comprehensive evaluation and optimization method of redundant robot
  • Movement flexibility comprehensive evaluation and optimization method of redundant robot
  • Movement flexibility comprehensive evaluation and optimization method of redundant robot

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Embodiment Construction

[0053] The present invention will be further described in detail below in conjunction with the drawings and specific embodiments:

[0054] The present invention provides a comprehensive evaluation and optimization method for the flexible performance of redundant robots. It establishes a set of flexible performance indicators for comprehensive optimization and mathematical analysis of redundant robots, and seeks the correlation between various flexible performance indicators for robots. Performance research provides scientific reference to improve more reasonable optimization methods.

[0055] As an embodiment of the present invention, the present invention provides a method for comprehensive evaluation and optimization of redundant robot movement flexibility:

[0056] 1) The establishment of the robot Jacobian matrix;

[0057] Using the motion screw and the POE formula [7] to derive the characteristic formula (1) of the robot Jacobian matrix:

[0058]

[0059] among them:

[0060] In t...

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Abstract

The invention discloses a tow placement robot with a redundant joint. The spinor theory is used for establishing the kinematic jacobian matrix of the robot; for comprehensively evaluating the flexibility index of the robot, three indexes of the condition number, the manipulability and the minimum singular value are modelled as three target functions after being changed, and the target functions are optimized through the adoption of an improved multi-target genetic algorithm and the introduction of Pareto efficiency; performing the data analysis on the optimized Pareto first front-end optimal solution set, describing the relation among the indexes using related coefficients, when finding the performance optimization on the tow placement robot, necessarily considering the mutual relation of the indexes, and finally acquiring the tow placement robot working space region with the optimal comprehensive performance. The simulation result proves that the operation of performing the genetic algorithm optimization and application of the multi-target using the Pareto efficiency is reliable and efficient, and lays the foundation for the next step test research of the tow placement robot; and meanwhile, the operation provides good reference value for the movement flexibility performance analysis and optimization of other serial robots.

Description

Technical field [0001] The invention relates to the field of optimization methods for redundant robots, in particular to a method for comprehensive evaluation and optimization of redundant robot movement flexibility. Background technique [0002] For a robot with a certain configuration, its flexibility will directly affect whether the specific operation task can be completed. Therefore, the index to measure the flexibility of the robot plays an important role in the design, evaluation and motion planning of the robot. Scholars from various countries have carried out in-depth research and proposed many robot flexibility indicators, mainly including condition number, operability, and minimum singular value. These indicators have been applied to the configuration synthesis and trajectory planning of robots and achieved good results. Effect. Among them, for evaluating the overall condition of robot flexibility in its workspace, the existing literature proposes global performance in...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50G06N3/12
CPCG06N3/126G06F30/3323
Inventor 应明峰莫晓晖李晓晖杭阿芳周洪高峰赵国树
Owner JINLING INST OF TECH
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