Modeling and control of mobile platform using flatness-fuzzy based approach with gains adjustment

2017 6th International Conference on Systems and Control (ICSC) Pub Date : 2017-05-01 DOI:10.1109/ICOSC.2017.7958662

S. Khesrani, A. Hassam, M. Boubezoula, F. Srairi

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引用次数: 4

Abstract

This paper presents a new control strategy of autonomous mobile robot in running environment. The robot is considered as an individual agent aimed at executes different tasks in term of motion under constraints applied on robot structure. The flat model of Pioneer 3dx robot is developed in order to prove that the system is flat and has various helpful properties which can be exploited to build the control investigation for such system. The developed control strategy is based on coupling between two techniques which are the flatness and the fuzzy logic technique. The flatness technique is used to planning an optimal trajectory and eliminates the non linearity effects of the model. Further, the fuzzy technique is employed to adjust the control law gains in real time and ensure a good tracking trajectory with high performances in terms of response time and dynamic error. The developed control strategy is simulated and tested using MobileSim simulator of Pioneer 3DX to validate the obtained results, where a good agreement is achieved.

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基于平整度模糊方法的移动平台增益调节建模与控制

提出了一种新的自主移动机器人在运行环境中的控制策略。在机器人结构的约束下，将机器人视为一个独立的智能体，以执行不同的运动任务为目标。建立了先锋3dx机器人的平面模型，以证明该系统是平面的，并具有各种有用的特性，可用于建立该系统的控制研究。所开发的控制策略是基于平面化和模糊逻辑两种技术的耦合。利用平面度技术规划最优轨迹，消除了模型的非线性影响。在此基础上，利用模糊控制技术实时调整控制律增益，保证系统在响应时间和动态误差方面具有良好的跟踪轨迹。利用Pioneer 3DX的MobileSim模拟器对所开发的控制策略进行了仿真和测试，验证了所获得的结果，并取得了良好的一致性。

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2017 6th International Conference on Systems and Control (ICSC)

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