Parametric Bounded Löb’s Theorem and Robust Cooperation of Bounded Agents

http://arxiv.org/abs/1602.04184v5

Abstract

L\ob’s theorem and G\odel’s theorems make predictions about the behavior of systems capable of self-reference with unbounded computational resources with which to write and evaluate proofs. However, in the real world, systems capable of self-reference will have limited memory and processing speed, so in this paper we introduce an effective version of L\ob’s theorem which is applicable given such bounded resources. These results have powerful implications for the game theory of bounded agents who are able to write proofs about themselves and one another, including the capacity to out-perform classical Nash equilibria and correlated equilibria, attaining mutually cooperative program equilibrium in the Prisoner’s Dilemma. Previous cooperative program equilibria studied by Tennenholtz (2004) and Fortnow (2009) have depended on tests for program equality, a fragile condition, whereas L\obian cooperation is much more robust and agnostic of the opponent’s implementation.