A hybrid multi-objective evolutionary algorithm using an inverse neural network for aircraft control system design

机译：基于逆神经网络的混合多目标进化算法在飞机控制系统设计中的应用

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This study introduces a hybrid multi-objective evolutionary algorithm (MOEA) for the optimization of aircraft control system design. The strategy suggested is composed mainly of two stages. The first stage consists of training an artificial neural network (ANN) with objective values as inputs and decision variables as outputs to model an approximation of the inverse of the objective function used. The second stage consists of a local improvement phase in objective space preserving objectives relationships, and a mapping process to decision variables using the trained ANN. Both the hybrid MOEA and the original MOEA were applied to an aircraft control system design application for assessment.

机译：这项研究引入了一种混合多目标进化算法（MOEA），以优化飞机控制系统的设计。建议的策略主要包括两个阶段。第一阶段包括训练一个人工神经网络（ANN），以目标值作为输入，并以决策变量作为输出，以对所使用的目标函数的逆模型进行建模。第二阶段包括在目标空间中保持目标关系的局部改进阶段，以及使用经过训练的人工神经网络对决策变量进行映射的过程。混合MOEA和原始MOEA均已应用于飞机控制系统设计应用程序以进行评估。

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《Evolutionary Computation, 2005. The 2005 IEEE Congress on》|2005年|P.1-8|共8页
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Adra; S.F.; Hamody; A.I.; Griffin; I.; Fleming; P.J.;
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中图分类工业技术;
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aerospace computing; aircraft control; control engineering computing; control system synthesis; genetic algorithms; learning (artificial intelligence); multilayer perceptrons; search problems; ANN; MOEA; aircraft control system design; artificial neural network tra;

机译：航天计算;飞机控制;控制工程计算;控制系统综合;遗传算法;学习（人工智能）;多层感知器;搜索问题; ANN; MOEA;飞机控制系统设计;人工神经网络跟踪;

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2. Application of Neural Networks for Synthesizing Flight Control Algorithms. I Neural Network Inverse Dynamics Method for Aircraft Flight Control [J] . A. I. Kondratev, Yu. V. Tyumentsev Russian Aeronautics . 2013,第2期

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3. Inverse modelling of multi-objective thermodynamically optimized turbojet engines using GMDH-type neural networks and evolutionary algorithms [J] . N. NARIMAN-ZADEH, K. ATASHKARI, A. JAMALI, Engineering Optimization . 2005,第5期

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4. A hybrid multi-objective evolutionary algorithm using an inverse neural network for aircraft control system design [C] . Adra S.F., Hamody A.I., Griffin I., Congress on Evolutionary Computation . 2005

机译：一种使用反向神经网络进行飞机控制系统设计的混合多目标进化算法
5. Design of engineering materials using hybrid neural-networks and evolutionary algorithms. [D] . Sundaram, Ananthapadmanaban. 1999

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7. A Hybrid Multi-Objective Evolutionary Algorithm Using an Inverse Neural Network for Aircraft Control System Design [O] . Salem F. Adra, Ahmed I. Hamody 2008

机译：基于逆神经网络的混合多目标进化算法在飞机控制系统设计中的应用

A hybrid multi-objective evolutionary algorithm using an inverse neural network for aircraft control system design

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