首页 | 期刊简介 | 主要栏目 | 投稿指南 | 编委会 | 广告合作及广告客户 | 期刊订阅 | 书籍推荐 | 联系我们
复杂科学与工程问题仿真的隐式微积分建模
投稿时间:2014-09-03  修订日期:2014-09-11  点此下载全文
引用本文:陈文.复杂科学与工程问题仿真的隐式微积分建模[J].计算机辅助工程,2014,23(5):1-6.
作者单位E-mail
陈文 河海大学水文水资源与水利工程科学国家重点实验室 chenwen@hhu.edu.cn 
基金项目:国家自然科学基金面上项目(11372097);国家杰出青年科学基金(11125208);111引智计划(B12032)
中文摘要:针对现代科学与工程仿真遇到愈来愈多难以用经典微积分建模方法描述的复杂问题,在理论研究和工程实践中提出各种含有多个经验参数的唯象偏微分方程模型,或直接采用统计模型来描述.这些模型的物理意义不是很清楚且参数多,其中部分人为参数缺乏物理意义.因此,利用描述问题的基本解或统计分布构造隐式微积分控制方程.这里“隐式”是指可以不需要或难以推导出该控制方程的显式微积分表达式.该方法仅需微积分控制方程的基本解和相应的边界条件就可以进行数值仿真计算.称该方法为隐式微积分方程建模.考虑多相软物质热传导的幂律行为,采用分数阶里斯(Riesz)势核函数为基本解构造稳态问题的隐式分数阶微积分方程模型并进行数值验证.此外,以列维(Lévy)稳态统计分布的概率密度函数为基本解,构造反常扩散现象的隐式分数阶微积分方程模型.该研究的主要数值计算技术基于径向基函数的配点方法.
中文关键词:隐式微积分方程建模  唯象模型  统计模型  基本解  经验参数
 
Implicit calculus modeling for simulation of complex scientific and engineering problems
Abstract:As to a growing number of complex scientific and engineering problems which are not easy to be described by classical calculus modeling methodology, a variety of phenomenological partial differential equation models including multiple empirical parameters have been proposed in theoretical research and engineering practice. In some cases, the statistical models are even used to substitute for the calculus models. These models are not clearly interpreted in physics and require more parameters in which the artificial parameters have no physical significance. Therefore, the fundamental solution or statistical distribution which can describe the problem is employed to construct the implicit calculus governing equation. It is noted that “implicit” in the study suggests that the explicit calculus expression of this governing equation is not required or difficult to derive. The fundamental solution of calculus governing equation and corresponding boundary conditions are sufficient to perform numerical simulation. This strategy is called the implicit calculus equation modeling. Considering the power law behaviors of heat conduction in multiple phase soft materials, the kernel function of fractional Riesz potential is used as the fundamental solution to build the implicit fractional calculus equation model for steady state problems. The numerical experiments verify the model. In addition, the statistical density function of Lévy stable statistical distribution is used as the fundamental solution to build the implicit calculus equation of fractional order to describe anomalous diffusion. The major numerical technique in the research is the radial basis function based collocation methods.
keywords:implicit calculus equation modeling  phenomenological model  statistical model  fundamental solution  empirical parameter
查看全文  查看/发表评论  下载PDF阅读器

您是第8837339位访问者
地址:上海市浦东新区海港大道1550号上海海事大学图书馆B511 邮编:201306
联系电话:021-38284908 传真:021-38284916 E-mail:smucae@163.com
微信号:CAEChina   QQ:274226135   QQ群(中国CAE技术交流):204762677
本系统由北京勤云科技发展有限公司设计
沪ICP备11028865号-2