A series of related electrophysiology phenomena can be caused by the occurrence of interpolated ventricular premature contraction.In our recent three-dimensional Lorenz R-R scatter plot research,we found that atrioven...A series of related electrophysiology phenomena can be caused by the occurrence of interpolated ventricular premature contraction.In our recent three-dimensional Lorenz R-R scatter plot research,we found that atrioventricular node double path caused by interpolated ventricular premature contraction imprints a specifi c pattern on three-dimensional Lorenz plots generated from 24-hour Holter recordings.We found two independent subclusters separated from the interpolated premature beat precluster,the interpolated premature beat cluster,and the interpolated premature beat postcluster,respectively.Combined with use of the trajectory tracking function and the leap phenomenon,our results reveal the presence of the atrioventricular node double conduction path.展开更多
针对用有限元法进行连续体结构拓扑优化时需不断重构网格来处理网格畸变和网格移动,且存在数值计算不稳定等问题,基于无网格径向点插值方法(Radial Point Interpolation Method,RPIM)对简谐激励下的连续体结构进行拓扑优化.选取节点的...针对用有限元法进行连续体结构拓扑优化时需不断重构网格来处理网格畸变和网格移动,且存在数值计算不稳定等问题,基于无网格径向点插值方法(Radial Point Interpolation Method,RPIM)对简谐激励下的连续体结构进行拓扑优化.选取节点的相对密度作为设计变量,以结构动柔度最小化为目标函数,基于带惩罚的各向同性固体微结构(Solid Isotropic Microstructure with Penalization,SIMP)模型建立简谐激励下的优化模型;采用伴随法求解得到目标函数的敏度分析公式;利用优化准则法求解优化模型.经典的二维连续体结构拓扑优化算例证明该方法的可行性和有效性.展开更多
基于RAMP(Rational Approximation of Material Properties)插值模型密度法,以结构模态损耗因子倒数最小化为优化目标、阻尼结构体积为约束条件、约束阻尼单元相对密度为设计变量,建立约束阻尼结构拓扑优化模型。基于优化准则法推导设...基于RAMP(Rational Approximation of Material Properties)插值模型密度法,以结构模态损耗因子倒数最小化为优化目标、阻尼结构体积为约束条件、约束阻尼单元相对密度为设计变量,建立约束阻尼结构拓扑优化模型。基于优化准则法推导设计变量更新准则,结合有限元法编写约束阻尼材料拓扑优化程序,对圆柱壳在振动控制中约束阻尼结构进行拓扑优化分析。结果表明,基于优化准则的振动拓扑优化方法所需迭代次数少,能有效减少结构的振动响应。从而验证设计方法的有效性。展开更多
文摘A series of related electrophysiology phenomena can be caused by the occurrence of interpolated ventricular premature contraction.In our recent three-dimensional Lorenz R-R scatter plot research,we found that atrioventricular node double path caused by interpolated ventricular premature contraction imprints a specifi c pattern on three-dimensional Lorenz plots generated from 24-hour Holter recordings.We found two independent subclusters separated from the interpolated premature beat precluster,the interpolated premature beat cluster,and the interpolated premature beat postcluster,respectively.Combined with use of the trajectory tracking function and the leap phenomenon,our results reveal the presence of the atrioventricular node double conduction path.
文摘针对用有限元法进行连续体结构拓扑优化时需不断重构网格来处理网格畸变和网格移动,且存在数值计算不稳定等问题,基于无网格径向点插值方法(Radial Point Interpolation Method,RPIM)对简谐激励下的连续体结构进行拓扑优化.选取节点的相对密度作为设计变量,以结构动柔度最小化为目标函数,基于带惩罚的各向同性固体微结构(Solid Isotropic Microstructure with Penalization,SIMP)模型建立简谐激励下的优化模型;采用伴随法求解得到目标函数的敏度分析公式;利用优化准则法求解优化模型.经典的二维连续体结构拓扑优化算例证明该方法的可行性和有效性.
文摘基于RAMP(Rational Approximation of Material Properties)插值模型密度法,以结构模态损耗因子倒数最小化为优化目标、阻尼结构体积为约束条件、约束阻尼单元相对密度为设计变量,建立约束阻尼结构拓扑优化模型。基于优化准则法推导设计变量更新准则,结合有限元法编写约束阻尼材料拓扑优化程序,对圆柱壳在振动控制中约束阻尼结构进行拓扑优化分析。结果表明,基于优化准则的振动拓扑优化方法所需迭代次数少,能有效减少结构的振动响应。从而验证设计方法的有效性。