Rapid prediction method for nonlinear expansion process of medical vascular stent 被引量：1

Rapid prediction method for nonlinear expansion process of medical vascular stent

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摘要 A neural network model with high nonlinear recognition capability was constructed to describe the relationship between the deformation impact factors and the deformation results of vascular stent.Then,using the weighted correction method with the attached momentum term,the network training algorithm was optimized by introducing learning factor η and momentum factor ψ,so the speed of the network training and the system robustness were enhanced.The network was trained by some practi-cal cases,and the statistical hypothesis validation was made for the predictive errors.It was shown that the average difference between the intelligent predictive result of vascular stent deformation neu-ral network and the nonlinear finite element analysis result was less than 0.03%,and the trained net-work could perfectly predict the vascular stent deformation.Further more,the rapid evaluation tool for the vascular stent mechanics performance was established using the Pro/Toolkit and the intelligent neural network predictive model of vascular stent expansion.The proposed tool system with strong practicality and high efficiency can significantly shorten the product development cycle of vascular stent. A neural network model with high nonlinear recognition capability was constructed to describe the relationship between the deformation impact factors and the deformation results of vascular stent. Then, using the weighted correction method with the attached momentum term, the network training algorithm was optimized by introducing learning factor η and momentum factor ψ, so the speed of the network training and the system robustness were enhanced. The network was trained by some practical cases, and the statistical hypothesis validation was made for the predictive errors. It was shown that the average difference between the intelligent predictive result of vascular stent deformation neural network and the nonlinear finite element analysis result was less than 0.03%, and the trained network could perfectly predict the vascular stent deformation. Further more, the rapid evaluation tool for the vascular stent mechanics performance was established using the Pro/Toolkit and the intelligent neural network predictive model of vascular stent expansion. The proposed tool system with strong practicality and high efficiency can significantly shorten the product development cycle of vascular stent.

作者 NI ZhongHua GU XingZhong WANG YueXuan

机构地区 School of Mechanical Engineering

出处《Science China(Technological Sciences)》 SCIE EI CAS 2009年第5期1323-1330,共8页 中国科学（技术科学英文版）

基金 Supported by the National Basic Research Program of China (Grant Nos. 2006CB708610, 2006AA04Z351) the National Natural Science Foundation of China (Grant No. 50675033) partly by the Natural Science Foundation of Jiangsu Province (Grant Nos. BK2006709 and BK2005072)

关键词 VASCULAR STENT NONLINEAR FINITE ELEMENT analysis artificial NEURAL network vascular stent nonlinear finite element analysis artificial neural network

分类号 TP399-C8 [自动化与计算机技术—计算机应用技术]

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