We study self-organized models for information transmission and herd behavior in financial markets. Existing models are generalized to take into account the effect of size-dependent fragmentation and coagulation probabilities of groups of agents and to include a demand process. Non-universal scaling with a tunable exponent for the group size distribution is found in the resulting system. We also show that the fragmentation and coagulation probabilities of groups of agents have a strong influence on the average investment rate of the system
From a statistical point of view, the prevalence of non-Gaussian distributions in nancial returns an...
From a statistical point of view, the prevalence of non-Gaussian distributions in financial returns ...
We consider the financial market as a model system and study empirically how agents strategically ad...
We present generalized dynamical models describing the sharing of information, and the corresponding...
We introduce and solve a model that mimics the herding effect in financial markets when groups of ag...
An exact solution is presented to a model that mimics the crowding effect in financial markets which...
We present a generalization of the dynamical model of information transmission and herd behavior pro...
Models to mimic the transmission of information in financial markets are introduced. As an attempt t...
We discuss various existing models which mimic the herding effect in financial markets and introduce...
We model the financial market using a class of agent-based models in which agents’ expectations are ...
We are looking for the agent-based treatment of the financial markets considering necessity to build...
In various agent-based models the stylized facts of financial markets (unit-roots, fat tails and vol...
<div><p>We are looking for the agent-based treatment of the financial markets considering necessity ...
We present a model describing the competition between information transmission and decision making ...
We are looking for the agent-based treatment of the financial markets considering necessity to build...
From a statistical point of view, the prevalence of non-Gaussian distributions in nancial returns an...
From a statistical point of view, the prevalence of non-Gaussian distributions in financial returns ...
We consider the financial market as a model system and study empirically how agents strategically ad...
We present generalized dynamical models describing the sharing of information, and the corresponding...
We introduce and solve a model that mimics the herding effect in financial markets when groups of ag...
An exact solution is presented to a model that mimics the crowding effect in financial markets which...
We present a generalization of the dynamical model of information transmission and herd behavior pro...
Models to mimic the transmission of information in financial markets are introduced. As an attempt t...
We discuss various existing models which mimic the herding effect in financial markets and introduce...
We model the financial market using a class of agent-based models in which agents’ expectations are ...
We are looking for the agent-based treatment of the financial markets considering necessity to build...
In various agent-based models the stylized facts of financial markets (unit-roots, fat tails and vol...
<div><p>We are looking for the agent-based treatment of the financial markets considering necessity ...
We present a model describing the competition between information transmission and decision making ...
We are looking for the agent-based treatment of the financial markets considering necessity to build...
From a statistical point of view, the prevalence of non-Gaussian distributions in nancial returns an...
From a statistical point of view, the prevalence of non-Gaussian distributions in financial returns ...
We consider the financial market as a model system and study empirically how agents strategically ad...