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用矩阵连分法求解非平稳的FPK方程 被引量:1

Solution to FPK Equation by Matrix Continued Fraction Method
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摘要 FPK方程是求解系统响应概率结构的关键方程,目前其解析解还只限于线性系统响应和少数几种特殊情况非线性系统的平稳响应过程。本文以正交函数展开法为基础,选择了FPK方程的部分算子作为解的展开函数系,同时根据系数方程最小耦合关系式的初始值问题和特征值问题及其两者的关系,提出了求解振动系统转移概率密度函数的近似方法。最后,以Duffin方程为例给出了非线性系统非平稳过程FPK方程的求解过程。计算结果表明,矩阵连分法收敛快、方法规则且精度高,能适用于各种非线性势场。 The Fokker-Planck-Kolmogorov equation plays an important role infinding the probabilistic structures of systems response. The FPK equationwill be exactly solvable only in the linear systems and in a few special cases ofnonlinear systems in stationary state. In this paper an approximate method offinding the transition probability density is proposed. On the basis of theexpansion of orthogonal function, the part-operator of the FPK equation isselected as an expansion function of solution, and the relationship between theinitial and eigenvalue problems of the least coupling coefficients is established.Finally, as an example, the procedure for solving the FPK equation of a non-linear system-Duffin's equation-in nonstationary state is presented. Itsresults show that the Matrix Continued-Fraction Method proposed in this paperis of fast covergence, high accuracy and regular in calculating patterns. Thusit can be available in various nonlinear potential fields.
作者 方丹萍 张惠侨 范祖尧
机构地区 上海交通大学机械工程系
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 1989年第4期78-89,共12页 Journal of Shanghai Jiaotong University
关键词 矩阵连分法 FPK方程 随机振动 random vibration Fokker-Planck-kolmogorov equation matrix continued-fraction method
分类号 O324 [理学—一般力学与力学基础]
  • 相关文献

参考文献3

  • 1常宝琦,随机振动分析,1977年
  • 2张炳根,科学与工程中的随机微分方程,1980年
  • 3团体著者,数学手册,1979年

同被引文献11

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  • 3Langley R S. A firstpassage approximation for normal stationary random processes [J]. Journal of Sound Vibration, 1988, 122(2): 261--275.
  • 4Liu Ning, Liu Guangting. Time-dependent reliability assessment for mass concrete structures[J]. Structural Safety, 1999(21): 23-43.
  • 5Naess A. Crossing rate statistics quadratic transformations of Gaussian processes [J]. Probability Engineering Mechanics, 2001 (16): 209- 217.
  • 6Madsen P H, Krenk S. An integral equation method for the first-passage problem in random vibration [J]. Journal of Applied Mechanics, ASME, 1984(51): 674- 679.
  • 7Engelund S, Rachwitz R. Approximations of firstpassage times foe differentiable processes based on higher-order threshold crossing [J]. Probability Engineering Mechanics, 1995(10): 53-60.
  • 8Ditlevsen O, Madsen H O. Structural reliability methods [M]. Chichester: John Wiley & Sons Ltd., 2004.
  • 9Papoulis A, PillaiS U. Probability, random variables and stochastic processes [M]. New York: McGraw-Hill Companies, Inc., 2002.
  • 10Ariaratnam S T, Pi H N. On the first-passage time for envelope crossing for a linear oscillator [J]. International Journal of Contol, 1973, 18(1): 89-96.

引证文献1

二级引证文献8

上海交通大学学报
1989年 第4期

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