Identification of stochastic process based on Genetic Algorithm (知能と複雑系)
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概要
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This study deals with the problem on how to simultaneously estimate the parameters in a stochastic process, especially under some complicated circumstances. Some previous research suggest using χ^2-fitting to estimate these parameters. But, it is certainly difficult to carry a χ^2-fitting with several unknown distributional parameters. Here in this study, we suggest estimating these paramters simultaneously by using Genetic Algorithm (GA). At first we explain Tsallis distribution and entropy model related to the Fokker-Planck equation, which is usually used to describe time-space evolution of particles. Since Tsallis distribution can provide dynamical traces of probability density functions (p.d.f) which evolve over different time spans. Different from conventional Brownian motion, Tsallis distribution is evolving as an anomalous diffusion process, and it includes two types distributions, namely, one is a distribution with finite moments, the other is a distribution with infinite moments. Actually there are several parameters to be optimized simultaneously, it is not easy for some simple χ^2-fitting to estimate. Thus, we propose to use the GA-based procedure to simultaneously optimize parameters of Tsallis anomalous diffusion process. In our numerical studies, we find that our proposed method works well on tracing the whole evolving picture of returns distribution of the High Frequency Data (HFD) in the stock market.
- 一般社団法人情報処理学会の論文
- 2009-02-23
著者
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Tan Kangrong
Faculty Of Economics Kurume University
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Tokinaga Shozo
Faculty Of Economics Kyushu University
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Tokinaga Shozo
Faculty of Economics, Kyushu University
関連論文
- Identification of stochastic process based on genetic algorithm (人工知能と知識処理)
- Identification of stochastic process based on Genetic Algorithm (知能と複雑系)
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