基于模糊聚类的Pixhawk四轴飞行器非线性系统辨识及控制器开发

2017 Ninth International Conference on Advanced Computational Intelligence (ICACI) Pub Date : 2017-02-01 DOI:10.1109/ICACI.2017.7974513

Md Meftahul Ferdaus, S. Anavatti, M. Garratt, Mahardhika Pratama

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引用次数: 29

摘要

最近，四轴飞行器的配置在民用和军事应用中变得越来越普遍，研究正在继续提高其可控性。然而，大多数控制方法依赖于精确的系统模型，这些模型是由六自由度非线性系统动力学推导出来的，它们通常不考虑实际的室外摄动和不确定性。为此，本文对无模型数据驱动的四轴飞行器系统识别与控制进行了改进。利用模糊聚类模型扩展了非线性多输入-多输出系统辨识。这种鉴定的准确性被认为是非常高的。并给出了PID控制器与所识别的模糊模型结合使用的结果。采用模糊辨识模型的PID控制器可以精确地跟踪指令信号。

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Fuzzy clustering based nonlinear system identification and controller development of Pixhawk based quadcopter

Recently, the quadcopter configuration is becoming prevalent for both civilian and military applications, and research is continuing to improve its controllability. However, most the control methodologies depend on accurate system models which are derived from six degrees of freedom nonlinear system dynamics and they generally do not consider realistic outdoor perturbations and uncertainties. As a solution, model-free data-driven system identification and controlling of quadcopter have been refined in this paper. This nonlinear multiple input-multiple output system identification is proliferated using a fuzzy clustering model. The accuracy of the identification is seen to very high. The results of a PID controller used in conjunction with the identified fuzzy model is also presented. The PID controller with the fuzzy identified model is seen to precisely follow the commanded signals.

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2017 Ninth International Conference on Advanced Computational Intelligence (ICACI)

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