A self-adaptive precise algorithm in time domain is exerted to dynamics equation. By expanding variables in discrete time intervals, problems with time and space coulpled can be transformed into a series space problems which can be solved recursively.
时间上采用时域精细算法,通过离散时段内的时间相关变量的展开,将时空耦合问题转化为一系列递推形式的空间问题,并采用自适应技术以保证计算精度,避免步长选择不当可能造成的计算误差。
参考来源 - 带有弹性和阻尼边界的梁的静力、动力多宗量反问题求解·2,447,543篇论文数据,部分数据来源于NoteExpress
时域上采用精细算法进行离散,并应用同伦算法进行求解。
A time stepping scheme is used for the transient analysis and a homotopy method is adopted to solve the process.
将时域精细算法与EFG方法相结合,求解粘弹性静、动力问题。
A precise algorithm in time domain is combined with Element Free Galerkin (EFG) method to solve static and dynamic problems of viscoelasticity.
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