MERTENS CONJECTURES IN ABSORBING GAMES WITH INCOMPLETE INFORMATION

Article

Ziliotto, Bruno

Universite PSL; Universite Paris-Dauphine; Centre National de la Recherche Scientifique (CNRS)

ANNALS OF APPLIED PROBABILITY

1050-5164

10.1214/23-AAP2011

2024

1948-1986

In a zero -sum stochastic game with signals (Repeated Games (2015) Cambridge Univ. Press, Chapter IV), at each stage, two adversary players make decisions and receive stage payoffs determined by these decisions and a variable called the state. The state follows a Markov chain controlled by both players. Actions and states are imperfectly observed by players, who receive private signals at each stage. Mertens (In Proceedings of the International Congress of Mathematicians, Vol. 1, 2 (Berkeley, Calif., 1986) (1987) 1528-1577 Amer. Math. Soc.) conjectured two properties regarding games with long durations: first, that a limit value always exists; second, that when Player 1 is more informed than Player 2, she can guarantee the limit value uniformly. These conjectures were recently disproved by the author (Ann. Probab. 44 (2016) 1107-1133) but remain widely open in many subclasses. A well-known particular subclass is absorbing games with incomplete information on both sides, in which the state can move at most once during the game, and players receive a private signal about it at the outset of the game. This paper proves Mertens' conjectures in this particular model by introducing a new approximation technique of belief dynamics likely to generalize to many other frameworks. In particular, this represents a significant step towards understanding the following broad question: in which games do Mertens' conjectures hold?