Multiagent systems: a modern approach to distributed artificial intelligence
Multiagent systems: a modern approach to distributed artificial intelligence
A taxonomy of parallel strategies for deduction
Annals of Mathematics and Artificial Intelligence
Critical Agents Supporting Interactive Theorem Proving
EPIA '99 Proceedings of the 9th Portuguese Conference on Artificial Intelligence: Progress in Artificial Intelligence
p-SETHEO: Strategy Parallelism in Automated Theorem Proving
TABLEAUX '98 Proceedings of the International Conference on Automated Reasoning with Analytic Tableaux and Related Methods
DISCOUNT: A SYstem for Distributed Equational Deduction
RTA '95 Proceedings of the 6th International Conference on Rewriting Techniques and Applications
Planning for Distributed Theorem Proving: The Teamwork Approach
KI '96 Proceedings of the 20th Annual German Conference on Artificial Intelligence: Advances in Artificial Intelligence
A Cooperation Model for Autonomous Agents
ECAI '96 Proceedings of the Workshop on Intelligent Agents III, Agent Theories, Architectures, and Languages
CADE-17 Proceedings of the 17th International Conference on Automated Deduction
P.rex: An Interactive Proof Explainer
IJCAR '01 Proceedings of the First International Joint Conference on Automated Reasoning
Omega: Towards a Mathematical Assistant
CADE-14 Proceedings of the 14th International Conference on Automated Deduction
System Description: LEO - A Higher-Order Theorem Prover
CADE-15 Proceedings of the 15th International Conference on Automated Deduction: Automated Deduction
The Elint application on Poligon: the architecture and performance of a concurrent blackboard system
IJCAI'89 Proceedings of the 11th international joint conference on Artificial intelligence - Volume 1
Cooperation of heterogeneous provers
IJCAI'99 Proceedings of the 16th international joint conference on Artifical intelligence - Volume 1
A task-oriented agent-based mechanism for mathematical assistant systems
Web Intelligence and Agent Systems
IJCAR '08 Proceedings of the 4th international joint conference on Automated Reasoning
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This paper discusses experiments with an agent oriented approach to automated and interactive reasoning. The approach combines ideas from two subfields of AI (theorem proving/proof planning and multi-agent systems) and makes use of state of the art distribution techniques to decentralise and spread its reasoning agents over the internet. It particularly supports cooperative proofs between reasoning systems which are strong in different application areas, e.g., higher-order and first-order theorem provers and computer algebra systems.