PAPER DIGEST
Most Influential AAAI 1994 Paper · 2026-03 edition

Coalition, Cryptography, And Stability: Mechanisms For Coalition Formation In Task Oriented Domains

Gilad Zlotkin; Jeffrey S. Rosenschein

Venue
AAAI Conference on Artificial Intelligence (AAAI) 1994
Recognition
Most Influential AAAI 1994 Paper (Rank No. 15)
Edition
2026-03
Impact factor
4
Certificate ID
4c5213e3bf2a7d28

Abstract

Negotiation among multiple agents remains an important topic of research in Distributed Artificial Intelligence (DAI). Most previous work on this subject, however, has focused on bilateral negotiation, deals that are reached between two agents. There has also been research on n-agent agreement which has considered "consensus mechanisms" (such as voting), that allow the full group to coordinate itself. These group decision-making techniques, however, assume that the entire group will (or has to) coordinate its actions. Sub-groups cannot make sub-agreements that exclude other members of the group. In some domains, however, it may be possible for beneficial agreements to be reached among sub-groups of agents, who might be individually motivated to work together to the exclusion of others outside the group. This paper considers this more general case of n-agent coalition formation. We present a simple coalition formation mechanism that uses cryptographic techniques for subadditive Task Oriented Domains. The mechanism is efficient, symmetric, and individual rational. When the domain is also concave, the mechanism also satisfies coalition rationality.

Download PDF certificate