Comparative Study Between Integrator Backstepping and Fuzzy Logic Control Applied to an Electric Powered Wheelchair

European Journal of Electrical Engineering Pub Date : 2021-06-21 DOI:10.18280/ejee.230301

Mecifi Mohammed, Boumédiène Abdelmadjid, Boubekeur Djamila

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Abstract

The aim of this paper is the control of electric powered wheelchairs (EPW) which was made for people suffering of temporary or permanent disabilities due to illnesses or accidents. The EPW is powered by two Permanent Magnet Synchronous Motors (PMSM) that are characterized by high efficiency, high torque, low noise and robustness; hence the dynamic model of the both EPW-motors is presented in the first. After that, a comparative study is made between two nonlinear command theory; Integrator Backstepping based on the second method of Lyapunov which combine the choice of the energy function with the laws control, and, fuzzy logic introduced to approach human reasoning with the help of an adequate representation of knowledge. To evaluate the performance of the two controls, numerical simulations are presented to show the evolution of electrical and mechanical quantities, the energy consumed and the squared error of the displacement and velocity. However, the reference trajectory used is that generated by the fifth-degree polynomial interpolation, which ensures a regular trajectory that is continuous in positions, velocities and accelerations.

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积分器反演与模糊逻辑控制在电动轮椅上的比较研究

本文的目的是控制电动轮椅(EPW)是为人们遭受暂时或永久性残疾，由于疾病或事故。EPW由两台永磁同步电机(PMSM)驱动，具有高效率、高转矩、低噪声和鲁棒性等特点;因此，本文首先建立了两种epw电机的动力学模型。然后，对两种非线性命令理论进行了比较研究;基于Lyapunov第二种方法的积分器反演，该方法将能量函数的选择与规律控制相结合，并在知识的充分表示的帮助下引入模糊逻辑来接近人类推理。为了评估这两种控制的性能，通过数值模拟显示了电学和力学量的变化、消耗的能量以及位移和速度的平方误差。然而，所使用的参考轨迹是由五次多项式插值生成的，它确保了位置、速度和加速度连续的规则轨迹。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European Journal of Electrical Engineering

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