Helicopter Sizing Based on Genetic Algorithm Optimized Neural Network

基于遗传算法优化神经网络的直升机参数选择(英文)

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摘要 It is very important to estimate the basic parameters in helicopter preliminary design. Neural Network （NN） has the advantages in estimating accuracy and generalization over traditional methods. However, there are some difficulties in using NN, e.g., how to select a proper network structure and the number of hidden layers. In this paper, structure and connection weight of a three-layer NN are optimized by genetic algorithm, and the optimized network is applied to helicopter sizing. The proposed method can not only give an optimal NN structure and connection weight, but also reduce the prediction error and has the capability of self-learning when the latest data are available. Furthermore, this method can be easily applied to helicopter design systems. It is very important to estimate the basic parameters in helicopter preliminary design. Neural Network （NN） has the advantages in estimating accuracy and generalization over traditional methods. However, there are some difficulties in using NN, e.g., how to select a proper network structure and the number of hidden layers. In this paper, structure and connection weight of a three-layer NN are optimized by genetic algorithm, and the optimized network is applied to helicopter sizing. The proposed method can not only give an optimal NN structure and connection weight, but also reduce the prediction error and has the capability of self-learning when the latest data are available. Furthermore, this method can be easily applied to helicopter design systems.

作者卢新来刘虎王钢林武哲

机构地区 School of Aeronautic Science and Technology School of Computer Science and Technology

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2006年第3期212-218,共7页 中国航空学报（英文版）

关键词 HELICOPTER conceptual design SIZING neural network genetic algorithm helicopter conceptual design sizing neural network genetic algorithm

分类号 V275.1 [航空宇航科学与技术—飞行器设计]

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参考文献18

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Chinese Journal of Aeronautics

2006年第3期

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Helicopter Sizing Based on Genetic Algorithm Optimized Neural Network

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