电磁防护仿生原理与故障自修复机制研究

借鉴生物神经网络信息传递的抗扰特点，开展了电磁干扰环境下通过仿生方式进行的电子电路抗扰与防护研究，以便采用新原理、新技术和新方法解决传统的电磁干扰防护手段不足的问题。通过基于布尔模型的复杂生物网络拓扑建模与简并特征分析，证明了网络简并性与功能鲁棒性之间的相互作用关系，以解决抗扰原理问题；通过构建基于神经元电路和可塑突触电路的神经网络电路模型，分析了突触权重的分布对于网络自修复特性的影响，以解决防护机制问题。进而，为电磁防护仿生原理及自修复机制的深入研究形成了一定的理论基础并完成了前期实践。...

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Published in	中国工程科学 Vol. 16; no. 3; pp. 76 - 85
Main Author	原亮满梦华常小龙
Format	Journal Article
Language	Chinese
Published	中国工程院战略咨询中心 01.03.2014 高等教育出版社有限公司军械工程学院信息工程系,石家庄,050003%军械工程学院静电与电磁防护研究所,石家庄,050003
Subjects	仿生学可塑性电磁仿生电磁防护简并性鲁棒性仿生学电磁防护电磁仿生简并性可塑性鲁棒性 plas-ticity degeneracy electromagnetic bionics electromagnetic protection robustness bionics
Online Access	Get full text
ISSN	1009-1742 2096-0034

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Abstract	借鉴生物神经网络信息传递的抗扰特点，开展了电磁干扰环境下通过仿生方式进行的电子电路抗扰与防护研究，以便采用新原理、新技术和新方法解决传统的电磁干扰防护手段不足的问题。通过基于布尔模型的复杂生物网络拓扑建模与简并特征分析，证明了网络简并性与功能鲁棒性之间的相互作用关系，以解决抗扰原理问题；通过构建基于神经元电路和可塑突触电路的神经网络电路模型，分析了突触权重的分布对于网络自修复特性的影响，以解决防护机制问题。进而，为电磁防护仿生原理及自修复机制的深入研究形成了一定的理论基础并完成了前期实践。
AbstractList	借鉴生物神经网络信息传递的抗扰特点，开展了电磁干扰环境下通过仿生方式进行的电子电路抗扰与防护研究，以便采用新原理、新技术和新方法解决传统的电磁干扰防护手段不足的问题。通过基于布尔模型的复杂生物网络拓扑建模与简并特征分析，证明了网络简并性与功能鲁棒性之间的相互作用关系，以解决抗扰原理问题；通过构建基于神经元电路和可塑突触电路的神经网络电路模型，分析了突触权重的分布对于网络自修复特性的影响，以解决防护机制问题。进而，为电磁防护仿生原理及自修复机制的深入研究形成了一定的理论基础并完成了前期实践。 TP393.02; 借鉴生物神经网络信息传递的抗扰特点，开展了电磁干扰环境下通过仿生方式进行的电子电路抗扰与防护研究，以便采用新原理、新技术和新方法解决传统的电磁干扰防护手段不足的问题。通过基于布尔模型的复杂生物网络拓扑建模与简并特征分析，证明了网络简并性与功能鲁棒性之间的相互作用关系，以解决抗扰原理问题；通过构建基于神经元电路和可塑突触电路的神经网络电路模型，分析了突触权重的分布对于网络自修复特性的影响，以解决防护机制问题。进而，为电磁防护仿生原理及自修复机制的深入研究形成了一定的理论基础并完成了前期实践。
Abstract_FL	As we borrowed the wisdom from biological neural system,the characteristic of interference-proof in information transferring process has been carefully studied. Our study in-cludes the response of electrical-interference-proof circuit in electromagnetic environment,by means of bionics redesign. By doing so,new principles,new technics and new ways are adopt-ed to solve the unavoidable situations in traditional electromagnet protection design. The com-plex bionic topological networks based on Boolean model were firstly built and the charactoristic of degeneracy were analyzed,then the bidirectional actions between degeneracy in networks and the robustness of functions were proved in order to fill the gap to deal with the need of inter-ference-proof. Based on the creation of the neuron networks and the electrical synapses in char-acter of plasticity,the effective of the distribution in the weight of synapse to the character of network self-restoration was studied afterwards so that the corresponding mechanism could be defined. In this way,the research laid a theoretical foundation for electromagnetic protection and the self-restoration.
Author	原亮满梦华常小龙
AuthorAffiliation	军械工程学院信息工程系,石家庄050003 军械工程学院静电与电磁防护研究所,石家庄050003
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Author_FL	Chang Xiaolong Yuan Liang Man Menghua
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Notes	Yuan Liang, Man Menghua, Chang Xiaolong （ 1. Department of Information Engineering, Ordnance Engineering College, Shijiazhuang 050003, China; 2. Institute of Electrostatic and Electromagnetic Protection, Ordnance Engineering College, Shijiazhuang 050003, China） 11-4421/G3 bionics;electromagnetic bionics;electromagnetic protection;degeneracy;plas-ticity;robustness As we borrowed the wisdom from biological neural system,the characteristic of interference-proof in information transferring process has been carefully studied. Our study in-cludes the response of electrical-interference-proof circuit in electromagnetic environment,by means of bionics redesign. By doing so,new principles,new technics and new ways are adopt-ed to solve the unavoidable situations in traditional electromagnet protection design. The com-plex bionic topological networks based on Boolean model were firstly built and the charactoristic＆amp;nbsp;of degeneracy were analyzed,then the bidirectional actions between degeneracy in networks and the ro
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Title	电磁防护仿生原理与故障自修复机制研究
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