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Tensile strength modeling of braided bicomponent ureteral stent with particle swarm optimization algorithm

机译：粒子群优化算法编织双组分输尿管支架的拉伸强度建模

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A tensile strength model of bicomponent stents composed of poly(lactic-co-glycolic acid) (PGLA) and poly(glycolic acid) (PGA) was established. Particle swarm optimization (PSO) algorithm was devotedto estimate (the optimal parameters of the tensile strength model. In order to improve the generalization ability of the model, cross-validation of the measured data was used to adjust related parameters of the process model. Subsequently, the root mean square(R.M.S) of deviation of the model wasless than the value of cross validation. Generalization ability of the model was improved. The experimental data and simulated data fit well, proving that the model could closely reflect the drawing process of ureteral stents.

机译：建立了由聚（乳酸 - 乙醇酸）（PGLA）和聚（乙醇酸）（PGA）组成的双组分支架的拉伸强度模型。粒子群优化（PSO）算法估计（拉伸强度模型的最佳参数。为了提高模型的泛化能力，使用测量数据的交叉验证来调整过程模型的相关参数。随后，模型的偏差的根均方（RMS）无比交叉验证的值无缺陷。模型的泛化能力得到改善。实验数据和模拟数据适合，证明该模型可以密切地反映输尿管的绘图过程支架。

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《Chinese Control Conference 》|2016年|1 v.|共5页
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Xiaoyan Liu; Feng Li; Yongsheng Ding; Lu Wang; Ting Zou; Kuangrong Hao;
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中图分类自动控制、自动控制系统 ;
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Decision support systems; Electronic mail; Biomedical materials; Manufacturing; Europe; Textiles;

机译：决策支持系统;电子邮件;生物医学材料;制造业;欧洲;纺织品;

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1. Intelligent Optimization of the Film-to-Fiber Ratio of a Degradable Braided Bicomponent Ureteral Stent [J] . Feng Li, Juergen Stampfl, Kuangrong Hao, Materials . 2015 ,第11期

机译：可降解编织双组分输尿管支架膜与纤维比的智能优化
2. Prediction of the splitting tensile strength of the bonding interface by combining the support vector machine with the particle swarm optimization algorithm [J] . Jiang Wei, Xie Youjun, Li Wenxu, Engineering Structures . 2021 ,第Mara1期

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3. Phenomenological model-based study on electron beam welding process, and input-output modeling using neural networks trained by back-propagation algorithm, genetic algorithms, particle swarm optimization algorithm and bat algorithm [J] . Das Debasish, Pratihar Dilip Kumar, Roy Gour Gopal, Applied Intelligence: The International Journal of Artificial Intelligence, Neural Networks, and Complex Problem-Solving Technologies . 2018 ,第9期

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4. Tensile strength modeling of braided bicomponent ureteral stent with particle swarm optimization algorithm [C] . Xiaoyan Liu, Feng Li, Yongsheng Ding, Chinese Control Conference . 2016

机译：编织双组分输尿管支架抗张强度的粒子群优化算法
5. Explorations in swarm algorithms: Hybrid particle swarm optimization and adaptive culture model algorithms. [D] . Noel, Mathew M. 2005

机译：群算法的探索：混合粒子群优化和自适应文化模型算法。
6. Intelligent Optimization of the Film-to-Fiber Ratio of a Degradable Braided Bicomponent Ureteral Stent [O] . Xiaoyan Liu, Feng Li, Yongsheng Ding, 2015

机译：可降解编织双组分输尿管支架膜与纤维比的智能优化
7. Intelligent Optimization of the Film-to-Fiber Ratio of a Degradable Braided Bicomponent Ureteral Stent [O] . Xiaoyan Liu, Feng Li, Yongsheng Ding, 2015

机译：可降解编织双组分输尿管支架膜 - 纤维比的智能优化

Tensile strength modeling of braided bicomponent ureteral stent with particle swarm optimization algorithm

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