Multiagent compromise via negotiation
Distributed Artificial Intelligence (Vol. 2)
A multi-attribute utility theoretic negotiation architecture for electronic commerce
AGENTS '00 Proceedings of the fourth international conference on Autonomous agents
Strategic negotiation in multiagent environments
Strategic negotiation in multiagent environments
The Jini Specifications
Negotiation among Autonomous Computational Agents
IBERAMIA 2002 Proceedings of the 8th Ibero-American Conference on AI: Advances in Artificial Intelligence
An Agent-Based Negotiation Model Supporting Transactions in Electronic Commerce
DEXA '00 Proceedings of the 11th International Workshop on Database and Expert Systems Applications
Using Similarity Criteria to Make Negotiation Trade-Offs
ICMAS '00 Proceedings of the Fourth International Conference on MultiAgent Systems (ICMAS-2000)
Service discovery in agent-based pervasive computing environments
Mobile Networks and Applications
Proceedings of the 2005 ACM symposium on Applied computing
Using ubiquitous computing in interactive mobile marketing
Personal and Ubiquitous Computing
A machine-learning approach to automated negotiation and prospects for electronic commerce
Journal of Management Information Systems - Special issue: Information technology and its organizational impact
A model for multi-lateral negotiations on an agent-based job marketplace
Electronic Commerce Research and Applications
An agent negotiation system based on adaptive genetic algorithm
WiCOM'09 Proceedings of the 5th International Conference on Wireless communications, networking and mobile computing
KEMNAD: A Knowledge Engineering Methodology For Negotiating Agent Development
Computational Intelligence
An efficient automated negotiation strategy for complex environments
Engineering Applications of Artificial Intelligence
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In this paper we propose an automated negotiation system that can efficiently carry out multilateral negotiations with multi-attributes in pervasive computing environments. For the multilateral negotiation system proposed in our study, an e-commerce framework for pervasive computing environments in which the components can dynamically join and disjoin a virtual market is also introduced. This framework overcomes the locality of pure ad hoc networks and supports efficiently multilateral negotiation models in pervasive computing environments. In order to achieve the applicability toward multilateral negotiations, the concept of a mediator agent and the bilateral negotiation scheme based on linear programming is utilized for the proposed system. The experimental results show that the proposed system produces higher joint profits in negotiations about 5% and is about 96 times faster in reaching agreements on the average under the condition of agreement for reciprocity than a negotiation system based on the trade-off mechanism.