The approximate agents’ wealth and price invariant densities of a repeated prediction market model is derived using the Fokker–Planck equation of the associated continuous-time jump process. We show that the approximation obtained from the evolution of log-wealth difference can be reliably exploited to compute all the quantities of interest in all the acceptable parameter space. When the risk aversion of the trader is high enough, we are able to derive an explicit closed-form solution for the price distribution which is asymptotically correct
This paper develops original models to study interacting agents in financial markets and in social n...
This paper studies the properties of the continuous double-auction trading mechanism using an artifi...
In this paper we discuss a closed-form approximation of the likelihood functions of an arbitrary dif...
The approximate agents’ wealth and price invariant densities of a repeated prediction market model i...
We apply the formalism of the continuous-time random walk to the study of financial data. The entire...
We consider a financial market model with a large number of interacting agents. Investors are hetero...
A discrete time model of financial markets is considered. It is assumed that the stock price evoluti...
Abstract: A discrete time model of a financial market is considered. We focus on the study of a guar...
Abstract: A discrete time model of financial markets is considered. It is assumed that the relative...
none3A discrete time model of a financial market is proposed, where the time evolution of asset pric...
Abstract: A discrete time model of financial markets is considered. It is assumed that the stock pri...
De Meyer and Moussa Saley [4] provide an endogenous justification for the appearance of Brownian Moti...
A simulation of high-frequency market data is performed with the Genoa Artificial Stock Market. Hete...
ABSTRACT. This paper develops an adaptive model of asset price and wealth dy-namics in a financial m...
This paper develops original models to study interacting agents in financial markets and in social n...
This paper studies the properties of the continuous double-auction trading mechanism using an artifi...
In this paper we discuss a closed-form approximation of the likelihood functions of an arbitrary dif...
The approximate agents’ wealth and price invariant densities of a repeated prediction market model i...
We apply the formalism of the continuous-time random walk to the study of financial data. The entire...
We consider a financial market model with a large number of interacting agents. Investors are hetero...
A discrete time model of financial markets is considered. It is assumed that the stock price evoluti...
Abstract: A discrete time model of a financial market is considered. We focus on the study of a guar...
Abstract: A discrete time model of financial markets is considered. It is assumed that the relative...
none3A discrete time model of a financial market is proposed, where the time evolution of asset pric...
Abstract: A discrete time model of financial markets is considered. It is assumed that the stock pri...
De Meyer and Moussa Saley [4] provide an endogenous justification for the appearance of Brownian Moti...
A simulation of high-frequency market data is performed with the Genoa Artificial Stock Market. Hete...
ABSTRACT. This paper develops an adaptive model of asset price and wealth dy-namics in a financial m...
This paper develops original models to study interacting agents in financial markets and in social n...
This paper studies the properties of the continuous double-auction trading mechanism using an artifi...
In this paper we discuss a closed-form approximation of the likelihood functions of an arbitrary dif...