发布时间:2012-06-07
题 目:Linking Agent-based Models and Stochastic Models of Financial Market
金融市场里的物理学-从个体模拟到随机模型
报告人:Feng Ling (National University of Singapore)
时 间:6月19日(周二),下午3:00
地 点:物理馆512会议室
摘要:
We carry out a study to quantitatively link agent-based modeling to stochastic modeling. After reviewing selected empirical and theoretical evidence documenting the behavior of traders, we construct an agent-based model to quantitatively demonstrate that “fat” tails in return distributions arise when traders share similar technical trading strategies and decisions. Extending our behavioral model to a stochastic model, we derive and explain a set of quantitative scaling relations of long-term memory from the empirical behavior of individual market participants. Our analysis provides a behavioral interpretation of the long-term memory of absolute and squared price returns: They are directly linked to the way investors evaluate their investments by applying technical strategies at different investment horizons, and this quantitative relationship is in agreement with empirical findings. Our approach provides a possible behavioral explanation for stochastic models for financial systems in general and provides a method to parameterize such models from market data rather than from statistical fitting.
参考文献:
Linking agent-based models and stochastic models of financial markets, with Baowen Li, Boris Podobnik, Tobias Preis, and H. Eugene Stanley, Proceedings of National Academy of Sciences (PNAS), May 29, 2012 vol. 109 no. 22 8388-8393
个人简介:
Mr Feng Ling received his B.Sci (2008) from National University of Singapore, majoring in Physics with 2nd Upper Honors. In 2009, he received full scholarship for his PhD study supervised by Prof. Li Baowen at National University of Singapore, in the department of NUS Graduate School of Integrative Sciences and Engineering. In 2011, he joint Prof. H. Eugene Stanley’s group at Center for Polymer Studies in Boston University as a research scholar. His research interest is in econophysics, a growing discipline of physics that studies economics systems using the methods from physics. In particular, his focuses are on agent-based modeling, stochastic modeling, economic and financial networks.