Distributed Multi-agent Negotiation for Wi-Fi Channel Assignment

Conference paper (2023)

Authors

Marino Tejedor Romero Universidad de Alcalá
P.K. Murukannaiah Interactive Intelligence - EEMCS
Jose Manuel Gimenez-Guzman Universitat Politécnica de Valencia
Ivan Marsa Maestre Universidad de Alcalá
C.M. Jonker Interactive Intelligence - EEMCS
Research Group
Interactive Intelligence (EEMCS) (TU Delft)
Copyright: © 2023 Marino Tejedor-Romero, P.K. Murukannaiah, Jose Manuel Gimenez-Guzman, Ivan Marsa-Maestre, C.M. Jonker
DOI: https://doi.org/10.1007/978-981-99-0561-4_1
Automated negotiation Simulated annealing Wi-Fi networks
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Published Date

2023

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Intelligent Systems

Research Group

Interactive Intelligence

Abstract

Channel allocation in dense, decentralized Wi-Fi networks is a challenging due to the highly nonlinear solution space and the difficulty to estimate the opponent’s utility model. So far, only centralized or mediated approaches have succeeded in applying negotiation to this setting. We propose the first two fully-distributed negotiation approaches for Wi-Fi channel assignment. Both of them leverage a pre-sampling of the utility space with simulated annealing and a noisy estimation of the Wi-Fi utility function. Regarding negotiation protocols, one of the approaches makes use of the Alternating Offers protocol, while the other uses the novel Multiple Offers Protocol for Multilateral Negotiations with Partial Consensus (MOPaC), which naturally matches the problem peculiarities. We compare the performance of our proposed approaches with the previous mediated approach, based on simple text mediation. Our experiments show that our approaches yield better utility outcomes, better fairness and less information disclosure than the mediated approach.