基于遗传算法的四旋翼无人机盲定位方法

G. E. Faelden, Jose Martin Z. Maningo, R. Nakano, A. Bandala, E. Dadios
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引用次数: 15

摘要

人们对无人驾驶飞行器(uav)如四旋翼飞行器的研究兴趣越来越大。这些研究将这些四旋翼机应用于更复杂的任务,其中大多数需要相机和GPS模块进行定位。本文提出了一种不使用相机和GPS模块的四旋翼飞行器的位置定位方法,该方法采用收发器和遗传算法。本文使用从收发器接收到的信号作为遗传算法的输入,以便在xyz轴上定位四旋翼。为了确定一种成功定位四旋翼飞行器的方法,对收发器的位置、收发器的数量和遗传算法的种群大小等参数进行了测试。结果表明,不同参数的测试是成功的,并且通常收敛到适应度大于99%的点。平均健康测量值大于99.9900%作为完成测试的基准。第一次测试在大约130代的时候达到了这个基准,第二次测试在110代的时候达到了这个基准。该程序定位四旋翼飞机的时间约为60毫秒。结果表明,这种盲定位技术能够成功地对四旋翼飞行器进行定位,并且可以根据自己的需要进行标定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Blind localization method for quadrotor-unmanned aerial vehicle (QUAV) utilizing genetic algortihm
There is an increasing research interest in unmanned autonomous vehicles (UAVs) such as quadrotors. These researches applies these quadrotors for much more complicated tasks with most requiring cameras and GPS modules for positioning. This paper presents an alternative way of position localization of a quadrotor without the use of cameras and GPS modules by means of transceivers and Genetic Algorithm (GA). This paper uses the received signals from the transceivers as inputs for the genetic algorithm in order to locate the quadrotor in a xyz axis. Parameters such as location of transceivers, amount of transceivers and population size of the GA are tested in order to determine a successful way of locating the quadrotor. Results show that the different parameters tested were successful and converges to a point usually with a fitness measure greater than 99%. An average fitness measure greater than 99.9900% served as a benchmark for the tests done. The first test achieved this benchmark at about 130 generations and the second test achieved it at 110 generations. The time it took for the program to locate the quadrotor is about 60 milliseconds. Results show that this blind localization technique is successfully locates the quadrotor and may be calibrated to one's own need.
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