Bounded-rational agents on networks reach higher stationary coordination probability when connectivity is uniform, with the probability increasing in rationality parameter beta and the partition function approximable by a Gaussian moment-generating function to show regular networks are optimal.
Quantal response equilibria for normal form games
2 Pith papers cite this work. Polarity classification is still indexing.
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Neuromorphic decision dynamics realize best response as an attractor of an internal state-space process whose convergence rate is independent of action count and that switches only on sufficiently strong evidence.
citing papers explorer
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Learning to Coordinate over Networks with Bounded Rationality
Bounded-rational agents on networks reach higher stationary coordination probability when connectivity is uniform, with the probability increasing in rationality parameter beta and the partition function approximable by a Gaussian moment-generating function to show regular networks are optimal.
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Neuromorphic Realization of Best Response in Finite-Action Games
Neuromorphic decision dynamics realize best response as an attractor of an internal state-space process whose convergence rate is independent of action count and that switches only on sufficiently strong evidence.