Intelligent control for a drone by self-tunable Fuzzy Inference System

机译：自可调模糊推理系统对无人机的智能控制

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The work describes an automatically online self-tunable fuzzy inference system (STFIS) of a new configuration of mini-flying called XSF (X4 stationary flyer) drone. A fuzzy controller based on online optimization of a zero order Takagi-Sugeno fuzzy inference system (FIS) by a back propagation-like algorithm is successfully applied. It is used to minimize a cost function that is made up of a quadratic error term and a weight decay term that prevents an excessive growth of parameters. Thus, we carried out control for the continuation of simple trajectories such as the follow-up of straight lines, and complex (half circle, corner) by using the STFIS technique. This permits to prove the effectiveness of the proposed control law. We studied the robustness of the two controllers used in the presence of disturbances. We presented two types of disturbances, the case of a gust of wind and taking into account white noise disturbances. A comparison between the self-tunable fuzzy inference system (STFIS) and adaptive network based fuzzy inference system (ANFIS) is given.

机译：这项工作描述了一种自动在线自可调模糊推理系统（STFIS），该系统具有一种称为XSF（X4固定传单）无人机的新型迷你配置。成功地应用了基于反向传播算法的零阶高木-Sugeno模糊推理系统（FIS）在线优化的模糊控制器。它用于最小化由二次误差项和权重衰减项组成的成本函数，以防止参数过度增长。因此，我们使用STFIS技术控制了简单轨迹的延续，例如直线的跟踪以及复杂（半圆，角）的跟踪。这可以证明所提议的控制法的有效性。我们研究了在存在干扰的情况下使用的两个控制器的鲁棒性。我们介绍了两种类型的干扰，一阵风和考虑白噪声干扰。给出了自可调模糊推理系统（STFIS）和基于自适应网络的模糊推理系统（ANFIS）之间的比较。

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来源
《Systems, Signals and Devices, 2009. SSD '09》|2009年|1-6|共6页
会议地点 Djerba(TN);Djerba(TN)
作者
Zemalache K.M.; Maaref H.;
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作者单位

Univ. des Sci. et de la Technol. d'Oran M B, Oran El M'Naouer;

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adaptive control; aerospace robotics; backpropagation; feedback; fuzzy control; fuzzy reasoning; fuzzy systems; intelligent robots; linearisation techniques; microrobots; minimisation; mobile robots; self-adjusting systems; tracking; STFIS technique; X4 stationary flyer; XSF; adaptive network based fuzzy inference system; automatic online self-tunable Takagi-Sugeno fuzzy inference system; back propagation-like algorithm; cost function minimization; drone intelligent control; fuzzy controller; miniflying robot; quadrati;

机译：自适应控制;航空航天机器人;反向传播;反馈;模糊控制;模糊推理;模糊系统;智能机器人;线性化技术;微型机器人;最小化;移动机器人;自我调节系统;跟踪; STFIS技术; X4固定传单; XSF;自适应网络模糊推理系统;自动在线可调Takagi-Sugeno模糊推理系统;后向传播算法;成本函数最小化;无人机智能控制;模糊控制器;微型飞行机器人; quadrati;

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1. Controlling a drone: Comparison between a based model method and a fuzzy inference system [J] . K. M. Zemalache, H. Maaref Applied Soft Computing . 2009,第2期

机译：控制无人机：基于模型的方法与模糊推理系统的比较
2. Intelligent Voice-Based Door Access Control System Using Adaptive-Network-based Fuzzy Inference Systems (ANFIS) for Building Security | Science Publications [J] . Syazilawati Mohamed, Wahyudi, Winda Astuti Journal of computer sciences . 2007,第5期

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3. Intelligent Flight Control System Design for the Small UAV Based on the Adaptive Neuro-Fuzzy Inference System [J] . M.M. Komnatska, D.P. Bondarenko Управляющие системы и машины . 2017,第4a270期

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4. INTELLIGENT CONTROL FOR A DRONE BY SELF-TUNABLE FUZZY INFERENCE SYSTEM [C] . K. M. Zemalache, H. Maaref International Muti-Conference on Systems, Signals and Devices . 2009

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5. Intelligent gas metal arc welding process control system: An application of artificial neural network fuzzy inference, and expert system technologies. [D] . Lin, Rong-Ho. 1994

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Intelligent control for a drone by self-tunable Fuzzy Inference System

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