Stochastic Loss Aversion for Random Medium Access
Computer Science and Game Theory
2012-02-28 v2
Abstract
We consider a slotted-ALOHA LAN with loss-averse, noncooperative greedy users. To avoid non-Pareto equilibria, particularly deadlock, we assume probabilistic loss-averse behavior. This behavior is modeled as a modulated white noise term, in addition to the greedy term, creating a diffusion process modeling the game. We observe that when player's modulate with their throughput, a more efficient exploration of play-space results, and so finding a Pareto equilibrium is more likely over a given interval of time.
Keywords
Cite
@article{arxiv.1201.1776,
title = {Stochastic Loss Aversion for Random Medium Access},
author = {George Kesidis and Youngmi Jin},
journal= {arXiv preprint arXiv:1201.1776},
year = {2012}
}