Title

Analyzing And Exploiting The Competitiveness Of Scenarios For Negotiating Convoy Formation Under Time Constraints

Abstract

In the convoy formation problem, two embodied agents are negotiating the synchronization of their movement for a portion of the path from their respective sources to destinations. As equilibrium strategies are not practically possible, we are interested in strategies with bounded rationality, which achieve good performance in a wide range of practical negotiation scenarios. Naturally, the performance of a strategy is dependent on the strategy of the opponent and the characteristics of the scenario. The goal of this paper is to develop a collaborativeness metric of the negotiation scenario which formalizes our intuition of collaborative scenarios (where the agents’ interests are closely aligned) versus competitive scenarios (where the gain of the utility for one agent is paid off with a loss of utility for the other agent). We are using the Children in the Rectangular Forest (CRF) game as a canonical model of convoy formation, assume zero initial knowledge and a negotiation protocol requiring mandatory, but non-binding evaluations of the opponents offer. We also assume that the negotiation happens in physical time. We describe two negotiation strategies: the comparatively simple Internal Negotiation Deadline (IND) strategy and the computationally more expensive Uniform Concession (UC) strategy. Then, we describe how these strategies can be augmented by collaborativeness analysis: we approximate the collaborativeness metric in the first several negotiation rounds, and use the result to cut short the negotiation when the estimated collaborativeness is lower than a threshold. Through an experimental study, we show that augmenting the strategies with collaborativeness analysis significantly improves their performance for low collaborativeness scenarios, with only a minimal penalty in high collaborativeness scenarios. © 2010 - IOS Press and the authors.

Publication Date

1-1-2010

Publication Title

Multiagent and Grid Systems

Volume

6

Issue

5-6

Number of Pages

415-435

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.3233/MGS-2010-0159

Socpus ID

85006154560 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/85006154560

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