复杂系统的阶乘矩

ERN: Other Econometrics: Applied Econometric Modeling in Financial Economics (Topic) Pub Date : 2011-08-30 DOI:10.2139/ssrn.1955253

Laurent Schoeffel

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引用次数: 1

摘要

阶乘矩是粒子物理中表征相空间分辨率($\Delta$)变小时多重分布的方便工具。它们包括粒子系统内的所有关联，并表示这些粒子之间任何关联的整体特征。在这封信中，我们展示了高能物理和定量金融结果之间的直接比较。对于物理和金融，我们都说明了粒子之间的相关性会导致多重分布的扩大以及当分辨率变得足够小时的动态波动。从阶乘矩的生成函数出发，预测了正负返回序列的间隙概率。这个缺口被定义为一个负收益之后连续正收益的数量，因此这是一个负收益的缺口。正回报的差距是相反的。然后，间隙概率在间隙大小内呈指数抑制。我们用数据证实了这一预测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Factorial Moments in Complex Systems

Factorial moments are convenient tools in particle physics to characterize the multiplicity distributions when phase-space resolution ($\Delta$) becomes small. They include all correlations within the system of particles and represent integral characteristics of any correlation between these particles. In this letter, we show a direct comparison between high energy physics and quantitative finance results. Both for physics and finance, we illustrate that correlations between particles lead to a broadening of the multiplicity distribution and to dynamical fluctuations when the resolution becomes small enough. From the generating function of factorial moments, we make a prediction on the gap probability for sequences of returns of positive or negative signs. The gap is defined as the number of consecutive positive returns after a negative return, thus this is a gap in negative return. Inversely for a gap in positive return. Then, the gap probability is shown to be exponentially suppressed within the gap size. We confirm this prediction with data.

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ERN: Other Econometrics: Applied Econometric Modeling in Financial Economics (Topic)

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