用于导弹高效设计与优化的重复增强神经网络(RENN)

2010 Third International Joint Conference on Computational Science and Optimization Pub Date : 2010-05-28 DOI:10.1109/CSO.2010.150

Nhu-Van Nguyen, Kwon-Su Jeon, Jae-Woo Lee, Y. Byun

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引用次数: 2

摘要

提出了一种改进的空中拦截导弹设计优化方法。将贝叶斯学习技术映射到反向传播神经网络(BPNN)中，以建立准确有效的系统近似，即增强的神经网络模块。然后，生成代理模型并将其发送给混合优化器，在混合优化器中获得暂定的最优结果并将其更新到训练数据中以改进响应面。这个过程被称为重复增强神经网络(RENN)，反复执行以细化响应面，直到得到收敛的最优解。通过数值算例和两榀框架的设计，验证了该方法的准确性和可行性。最后，将该方法应用于空中拦截导弹aim的重新设计

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Development of Repetitively Enhanced Neural Networks (RENN) for Efficient Missile Design and Optimization

An improved approach for design optimization of air intercept missile is developed and presented. A Bayesian learning technique is mapped into Back-propagation neural networks (BPNN) to establish an accurate and effective system approximation, namely an enhanced neural network module. Then, the surrogate models are generated and sent to a hybrid optimizer in which a tentative optimum result is obtained and updated into the training data to refine the response surfaces. This process, which is called Repetitively Enhanced Neural Networks (RENN), is executed repeatedly to refine the response surface until the convergent optimum solution is obtained. A numerical example and a two-member frame design are presented and discuss to demonstrate the accuracy and feasibility of RENN. Eventually, this RENN approach is applied to re-design the air intercept missile-AIM

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2010 Third International Joint Conference on Computational Science and Optimization

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