Distributed adaptive-neural-network continuous tracking control method of multi-robot system

A multi-robot and neural network technology, applied in the field of multi-robot system distributed adaptive neural network continuous tracking control, can solve the problems of multi-robot system parameter uncertainty, external interference, etc.

Active Publication Date: 2015-08-26
成都川哈工机器人及智能装备产业技术研究院有限公司
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Problems solved by technology

[0049] The purpose of the present invention is to solve the problem that the existing multi-robot system coordination tracking control method makes the multi-robot system have parameter uncertainty and external interference, and proposes a multi-robot system distributed adaptive neural network continuous tracking control method

Method used

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  • Distributed adaptive-neural-network continuous tracking control method of multi-robot system
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  • Distributed adaptive-neural-network continuous tracking control method of multi-robot system

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specific Embodiment approach 1

[0087] combine figure 1 and Figure 5 Describe the multi-robot system distributed adaptive neural network continuous tracking control method in this embodiment. First, introduce the related technologies applied in this embodiment:

[0088] 1. Euler-Lagrange model:

[0089] According to the Euler-Lagrange model: M i ( q i ) q · · i + C i ( q i , q · i ) q · i + G i ( q i ) = ...

specific Embodiment approach 2

[0147] Different from the specific embodiment 1, the Euler-Lagrange model described in step 1 satisfies antisymmetry and boundedness in the multi-robot system distributed adaptive neural network continuous tracking control method of this embodiment: is an antisymmetric matrix, given any vector x i ∈R p Have The boundedness refers to the existence of normal constants and make where I p is a p×p order identity matrix.

[0148] Prove that the observer is bounded

[0149] Since the navigator is dynamic, according to the navigator's time-varying velocity formula and time-varying trajectory formula, v is a time variable, so v(t-τ)≠v(t). Therefore, substituting the time-varying velocity formula (6) and the time-varying trajectory formula (7) into the control formula (8) of the distributed observer can get: η ‾ · = A η ‾ · ...

Embodiment 1

[0170] Embodiment carried out according to specific embodiment 2: a directed communication network composed of five two-degree-of-freedom manipulator robot systems, wherein numbers 1 to 4 are trackers, and number 5 is a navigator, such as figure 2 shown.

[0171] The Euler-Lagrange dynamic equation of each follower is as follows:

[0172] M i ( q i ) q · · i + C i ( q i , q · i ) q · i + G i ( q i ...

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Abstract

The invention, which belongs to the robot system control field, relates to a distributed adaptive-neural-network continuous tracking control method of a multi-robot system. According to the existing coordinated tracking and controlling method of the multi-robot system, problems of parameter uncertainty and external interference existence in the multi-robot system exist. The provided method comprises: under the circumstances that only parts of followers can obtain dynamic navigator state information, a distributed observer design is implemented with limitation of communication tine delay existence, so that all followers can obtain the dynamic navigator state information; and with consideration of the parameter uncertainty and external interference existence in the system, controlling is carried out by using a distributed adaptive tracking control expression designed based on two neural networks, so that the approximate error is close to zero. In addition, the control algorithm of the distributed adaptive tracking control expression is in a continuous control mode, no buffet is caused at the system and the great practical application value is created. Besides, validity of the control algorithm is verified by the simulation experiment.

Description

technical field [0001] The invention relates to a distributed adaptive neural network continuous tracking control method for a multi-robot system. Background technique [0002] With the rapid development of modern science and technology, robot technology has been widely used in many fields such as industry, medical treatment, agriculture, and entertainment. Coordinated control of multi-robots refers to the continuous exchange of state information between multiple robots under the action of the communication network, so as to form effective control, and finally make all robots achieve regular and orderly coordinated movement. Coordinated control of multi-robots is a comprehensive subject, and its development has been recognized by academia and industry. Multi-robot coordinated control has the characteristics of high efficiency, high flexibility and high fault tolerance, and can complete tasks that cannot be completed by a single robot. In recent years, the distributed coord...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
Inventor 陈亮名孙延超刘萌萌马广富王俊李传江
Owner 成都川哈工机器人及智能装备产业技术研究院有限公司
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