We discuss the ideal gas like models of a trading market. The effect of savings on the distribution have been thoroughly reviewed. The market with fixed saving factors leads to a Gamma-like distribution. In a market with quenched random saving factors for its agents we show that the steady state income ($m$) distribution $P(m)$ in the model has a power law tail with Pareto index $\nu$ equal to unity. We also discuss the detailed numerical results on this model. We analyze the distribution of mutual money difference and also develop a master equation for the time development of $P(m)$. Precise solutions are then obtained in some special cases
Economy is demanding new models, able to understand and predict the evolution of markets. To this re...
We analyze the large-time behavior of various kinetic models for the redistribution of wealth in sim...
We introduce a simple model of economy, where the time evolution is described by an equation captur...
We consider the ideal-gas models of trading markets, where each agent is identified with a gas molec...
We analyze the ideal-gas-like models of markets and review the different cases where a 'savings' fac...
We provide an exact solution to the ideal gas like models studied in econophysics to understand the ...
We analyze the ideal gas like models of markets and review the different cases where a `savings' fac...
We study here numerically the behavior of an ideal gas like model of markets having only one non-con...
We analyze an ideal-gas-like model of a trading market with quenched random saving factors for its a...
We consider a simple model of a closed economic system where the total money is conserved and the nu...
We consider a simple model of a closed economic system where the total money is conserved and the n...
We develop a framework based on microeconomic theory from which the ideal gas like market models can...
The effects of saving and spending patterns on holding time distribution of money are investigated b...
AbstractIn simulations of some economic gas-like models, the asymptotic regime shows an exponential ...
We introduce an auto-regressive model which captures the growing nature of realistic markets. In o...
Economy is demanding new models, able to understand and predict the evolution of markets. To this re...
We analyze the large-time behavior of various kinetic models for the redistribution of wealth in sim...
We introduce a simple model of economy, where the time evolution is described by an equation captur...
We consider the ideal-gas models of trading markets, where each agent is identified with a gas molec...
We analyze the ideal-gas-like models of markets and review the different cases where a 'savings' fac...
We provide an exact solution to the ideal gas like models studied in econophysics to understand the ...
We analyze the ideal gas like models of markets and review the different cases where a `savings' fac...
We study here numerically the behavior of an ideal gas like model of markets having only one non-con...
We analyze an ideal-gas-like model of a trading market with quenched random saving factors for its a...
We consider a simple model of a closed economic system where the total money is conserved and the nu...
We consider a simple model of a closed economic system where the total money is conserved and the n...
We develop a framework based on microeconomic theory from which the ideal gas like market models can...
The effects of saving and spending patterns on holding time distribution of money are investigated b...
AbstractIn simulations of some economic gas-like models, the asymptotic regime shows an exponential ...
We introduce an auto-regressive model which captures the growing nature of realistic markets. In o...
Economy is demanding new models, able to understand and predict the evolution of markets. To this re...
We analyze the large-time behavior of various kinetic models for the redistribution of wealth in sim...
We introduce a simple model of economy, where the time evolution is described by an equation captur...