Trajectory Tracking Control Method for Omnidirectional Mobile Robot Based on Self-Organizing Fuzzy Neural Network and Preview Strategy

This paper proposes a new trajectory tracking control scheme for the four mecanums wheel omnidirectional mobile robot (FM-OMR). Considering the influence of uncertainty on tracking accuracy, a self-organizing fuzzy neural network approximator (SOT1FNNA) is proposed to estimate the uncertainty. In pa...

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Veröffentlicht in:	Entropy (Basel, Switzerland) Jg. 25; H. 2; S. 248
Hauptverfasser:	Zhao, Tao, Qin, Peng, Zhong, Yuzhong
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	Switzerland MDPI AG 30.01.2023 MDPI
Schlagworte:	Access control Algorithms Approximation Artificial neural networks Control Control methods Curves Equipment and supplies Fuzzy algorithms Fuzzy logic Fuzzy sets Fuzzy systems Kinematics Mobile robots Neural networks omnidirectional mobile robot Optimization preview strategy Redundancy Robots Robust control self-organizing Self-organizing systems Strategy Tracking control Tracking systems Trajectory control Trajectory planning trajectory tracking Uncertainty Velocity China self-organizing omnidirectional mobile robot preview strategy trajectory tracking
ISSN:	1099-4300, 1099-4300
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Abstract	This paper proposes a new trajectory tracking control scheme for the four mecanums wheel omnidirectional mobile robot (FM-OMR). Considering the influence of uncertainty on tracking accuracy, a self-organizing fuzzy neural network approximator (SOT1FNNA) is proposed to estimate the uncertainty. In particular, since the structure of traditional approximation network is preset, it will cause problems such as input constraints and rule redundancy, resulting in low adaptability of the controller. Therefore, a self-organizing algorithm including rule growth and local access is designed according to the tracking control requirements of omnidirectional mobile robots. In addition, a preview strategy (PS) based on Bezier curve trajectory re-planning is proposed to solve the problem of tracking curve instability caused by the lag of tracking starting point. Finally, the simulation verifies the effectiveness of this method in tracking and trajectory starting point optimization.
AbstractList	This paper proposes a new trajectory tracking control scheme for the four mecanums wheel omnidirectional mobile robot (FM-OMR). Considering the influence of uncertainty on tracking accuracy, a self-organizing fuzzy neural network approximator (SOT1FNNA) is proposed to estimate the uncertainty. In particular, since the structure of traditional approximation network is preset, it will cause problems such as input constraints and rule redundancy, resulting in low adaptability of the controller. Therefore, a self-organizing algorithm including rule growth and local access is designed according to the tracking control requirements of omnidirectional mobile robots. In addition, a preview strategy (PS) based on Bezier curve trajectory re-planning is proposed to solve the problem of tracking curve instability caused by the lag of tracking starting point. Finally, the simulation verifies the effectiveness of this method in tracking and trajectory starting point optimization. This paper proposes a new trajectory tracking control scheme for the four mecanums wheel omnidirectional mobile robot (FM-OMR). Considering the influence of uncertainty on tracking accuracy, a self-organizing fuzzy neural network approximator (SOT1FNNA) is proposed to estimate the uncertainty. In particular, since the structure of traditional approximation network is preset, it will cause problems such as input constraints and rule redundancy, resulting in low adaptability of the controller. Therefore, a self-organizing algorithm including rule growth and local access is designed according to the tracking control requirements of omnidirectional mobile robots. In addition, a preview strategy (PS) based on Bezier curve trajectory re-planning is proposed to solve the problem of tracking curve instability caused by the lag of tracking starting point. Finally, the simulation verifies the effectiveness of this method in tracking and trajectory starting point optimization.This paper proposes a new trajectory tracking control scheme for the four mecanums wheel omnidirectional mobile robot (FM-OMR). Considering the influence of uncertainty on tracking accuracy, a self-organizing fuzzy neural network approximator (SOT1FNNA) is proposed to estimate the uncertainty. In particular, since the structure of traditional approximation network is preset, it will cause problems such as input constraints and rule redundancy, resulting in low adaptability of the controller. Therefore, a self-organizing algorithm including rule growth and local access is designed according to the tracking control requirements of omnidirectional mobile robots. In addition, a preview strategy (PS) based on Bezier curve trajectory re-planning is proposed to solve the problem of tracking curve instability caused by the lag of tracking starting point. Finally, the simulation verifies the effectiveness of this method in tracking and trajectory starting point optimization.
Audience	Academic
Author	Zhao, Tao Zhong, Yuzhong Qin, Peng
AuthorAffiliation	College of Electrical Engineering, Sichuan University, Chengdu 610065, China
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SubjectTerms	Access control Algorithms Approximation Artificial neural networks Control Control methods Curves Equipment and supplies Fuzzy algorithms Fuzzy logic Fuzzy sets Fuzzy systems Kinematics Mobile robots Neural networks omnidirectional mobile robot Optimization preview strategy Redundancy Robots Robust control self-organizing Self-organizing systems Strategy Tracking control Tracking systems Trajectory control Trajectory planning trajectory tracking Uncertainty Velocity
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Title	Trajectory Tracking Control Method for Omnidirectional Mobile Robot Based on Self-Organizing Fuzzy Neural Network and Preview Strategy
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