摘要
微分求积法已在科学和工程计算中得到了广泛应用。然而,有关时域微分求积法的数值稳定性、计算精度即阶数等基本特性,仍缺乏系统性的分析结论。依据微分求积法的基本原理,推导证明了微分求积法的权系数矩阵满足V-变换这一重要特性;利用微分求积法和隐式Runge-Kutta法的等值性,证明了时域微分求积法是A-稳定、s级s阶的数值方法。在此基础上,为进一步提高传统微分求积法的计算精度,利用待定系数法和Padé逼近,推导出了一类新的s级2s阶的微分求积法。数值计算对比结果验证了所提出的新微分求积法比传统的微分求积法具有更高的计算精度。
The differential quadrature method has been widely used in scientific and engineering computation. However, for the basic characteristics of time domain differential quadrature method, such as numerical stability and calculation accuracy or order, are still lack of systematic analysis conclusions. According to the principle of differential quadrature method, it has been derived and proved that the weight coefficient matrix of the differential quadrature method meets the important V-transformation feature. Through the equivalence of differential quadrature method and implicit Runge-Kutta method,it has been proved that the differential quadrature method is A-stable and s-stage s-order method. On this basis,in order to further improve the accuracy of the time domain differential quadrature method,a class of improved differential quadrature method of s-stage 2s-order has been derived using undetermined coefficients method and Pad6 approximations. The numerical results show that the proposed differential quadrature method is more precise than the traditional differential quadrature method.
出处
《计算力学学报》
CAS
CSCD
北大核心
2015年第6期765-771,共7页
Chinese Journal of Computational Mechanics
基金
国家自然科学基金(51377098)资助项目
