UAS see-and-avoid strategy using a fuzzy logic controller optimized by Cross-Entropy in Scaling Factors and Membership Functions

2013 International Conference on Unmanned Aircraft Systems (ICUAS) Pub Date : 2013-05-28 DOI:10.1109/ICUAS.2013.6564730

Changhong Fu, M. Olivares-Méndez, P. Campoy, Ramon Suarez-Fernandez

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引用次数: 9

Abstract

This work aims to develop a novel Cross-Entropy (CE) optimization-based fuzzy controller for Unmanned Aerial Monocular Vision-IMU System (UAMVIS) to solve the seeand-avoid problem using its accurate autonomous localization information. The function of this fuzzy controller is regulating the heading of this system to avoid the obstacle, e.g. wall. In the Matlab Simulink-based training stages, the Scaling Factor (SF) is adjusted according to the specified task firstly, and then the Membership Function (MF) is tuned based on the optimized Scaling Factor to further improve the collison avoidance performance. After obtained the optimal SF and MF, 64% of rules has been reduced (from 125 rules to 45 rules), and a large number of real flight tests with a quadcopter have been done. The experimental results show that this approach precisely navigates the system to avoid the obstacle. To our best knowledge, this is the first work to present the optimized fuzzy controller for UAMVIS using Cross-Entropy method in Scaling Factors and Membership Functions optimization.

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基于比例因子和隶属函数交叉熵优化的模糊控制器的UAS见避策略

本文旨在开发一种基于交叉熵(CE)优化的无人机单目视觉- imu系统(UAMVIS)模糊控制器，利用其精确的自主定位信息解决避视问题。该模糊控制器的功能是调节系统的航向以避开障碍物，如墙壁。在基于Matlab simulink的训练阶段，首先根据指定的任务调整比例因子(SF)，然后根据优化后的比例因子调整隶属度函数(MF)，进一步提高避碰性能。在得到最优的顺度和MF后，将规则减少了64%(从125条规则减少到45条规则)，并进行了大量四轴飞行器的实际飞行试验。实验结果表明，该方法能精确地引导系统避开障碍物。据我们所知，这是第一次在标度因子和隶属函数优化中使用交叉熵方法提出优化的UAMVIS模糊控制器。

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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2013 International Conference on Unmanned Aircraft Systems (ICUAS)

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