Marco Patriarca scite author profile

This article and the companion paper aim at reviewing recent empirical and theoretical developments usually grouped under the term Econophysics. Since the name was coined in 1995 by merging the words 'Economics' and 'Physics', this new interdisciplinary field has grown in various directions: theoretical macroeconomics (wealth distribution), microstructure of financial markets (order book modeling), econometrics of financial bubbles and crashes, etc. We discuss the interactions between Physics, Mathematics, Economics and Finance that led to the emergence of Econophysics. We then present empirical studies revealing the statistical properties of financial time series. We begin the presentation with the widely acknowledged 'stylized facts', which describe the returns of financial assets—fat tails, volatility clustering, autocorrelation, etc.—and recall that some of these properties are directly linked to the way 'time' is taken into account. We continue with the statistical properties observed on order books in financial markets. For the sake of illustrating this review, (nearly) all the stated facts are reproduced using our own high-frequency financial database. Finally, contributions to the study of correlations of assets such as random matrix theory and graph theory are presented. The companion paper will review models in Econophysics from the point of view of agent-based modeling.Computational finance, Correlation, Econophysics, Empirical finance,

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Statistical model with a standardΓdistribution

Patriarca¹,

Chakraborti

Kaski³

2004

Phys. Rev. E

155

172

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We study a statistical model consisting of N basic units which interact with each other by exchanging a physical entity, according to a given microscopic random law, depending on a parameter λ. We focus on the equilibrium or stationary distribution of the entity exchanged and verify through numerical fitting of the simulation data that the final form of the equilibrium distribution is that of a standard Gamma distribution. The model can be interpreted as a simple closed economy in which economic agents trade money and a saving criterion is fixed by the saving propensity λ. Alternatively, from the nature of the equilibrium distribution, we show that the model can also be interpreted as a perfect gas at an effective temperature T (λ), where particles exchange energy in a space with an effective dimension D(λ).

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Econophysics review: II. Agent-based models

Chakraborti¹,

Toke²,

Patriarca³

et al. 2011

Quantitative Finance

238

150

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This article is the second part of a review of recent empirical and theoretical developments usually grouped under the term Econophysics. In the first part, we have reviewed statistical properties of financial times series, statistics exhibited on order books and discussed some studies of correlations of assets. This second part deals with models in Econophysics through the point of view of agent-based modelling. Amongst a large number of multi-agent-based models, we have identified three representative areas. First, using previous work originally presented in the fields of behavioural finance and market microstructure theory, econophysicists have developed agent-based models of order-driven markets that are extensively presented here. Second, kinetic theory models designed to explain some empirical facts on wealth distribution are reviewed. Third, we briefly summarize game theory models by reviewing the now classic minority game and related problems.

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Modeling language competition

Patriarca¹,

Leppänen²

2004

Physica A: Statistical Mechanics and its Applications

122

129

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Marco Patriarca

Econophysics review: I. Empirical facts

Statistical model with a standardΓdistribution

Econophysics review: II. Agent-based models

Modeling language competition

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