Add to ORKGWe apply Camerer and Ho's experience-weighted attraction (EWA) model of learning to extensive-form signaling games. Since these games often have many equilibria, logical `refinements' have been used to predict which equilibrium will occur. Brandts and Holt conjectured that belief formation could lead to less refined equilibria, and confirmed their conjecture experimentally. Our adaptation of EWA to signaling games includes a formalization of the Brandts-Holt belief formation idea as a special case. We find that the Brandts-Holt dynamic captures the direction of switching from one strategy to another, but does not capture the rate at which switching occurs. EWA does better at predicting the rate of switching (and also forecasts better than r...
Information transfer is a basic feature of life that includes signaling within and between organisms...
Information transfer is a basic feature of life that includes signaling within and between organisms...
Information transfer is a basic feature of life that includes signaling within and between organisms...
We apply Camerer and Ho's experience-weighted attraction (EWA) model of learning to extensive-form s...
Recent experiments have indicated that it is possible to systematically lead subjects to less refine...
How does an equilibrium arise in a game? For decades, the implicit answer to this question was that...
How does an equilibrium arise in a game? For decades, the implicit answer to this question was that...
In earlier research we proposed an “experience-weighted attraction (EWA) learning” model for predict...
In earlier research we proposed an “experience-weighted attraction (EWA) learning” model for predict...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
We add the assumption that players know their opponents' payoff functions and rationality to a model...
Experience-weighted attraction is the leading model of learning in games. However, it can not obviou...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
Information transfer is a basic feature of life that includes signaling within and between organisms...
Information transfer is a basic feature of life that includes signaling within and between organisms...
Information transfer is a basic feature of life that includes signaling within and between organisms...
We apply Camerer and Ho's experience-weighted attraction (EWA) model of learning to extensive-form s...
Recent experiments have indicated that it is possible to systematically lead subjects to less refine...
How does an equilibrium arise in a game? For decades, the implicit answer to this question was that...
How does an equilibrium arise in a game? For decades, the implicit answer to this question was that...
In earlier research we proposed an “experience-weighted attraction (EWA) learning” model for predict...
In earlier research we proposed an “experience-weighted attraction (EWA) learning” model for predict...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
We add the assumption that players know their opponents' payoff functions and rationality to a model...
Experience-weighted attraction is the leading model of learning in games. However, it can not obviou...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
Most learning models assume players are adaptive (i.e., they respond only to their own previous expe...
Information transfer is a basic feature of life that includes signaling within and between organisms...
Information transfer is a basic feature of life that includes signaling within and between organisms...
Information transfer is a basic feature of life that includes signaling within and between organisms...