Query processing in the SIMS information mediator
Readings in agents
Knowledge-based proof planning
Artificial Intelligence
Flexible and scalable cost-based query planning in mediators: a transformational approach
Artificial Intelligence - Special issue on Intelligent internet systems
&OHgr;-ANTS- combining interactive and automated theorem proving
Symbolic computation and automated reasoning
Towards learning new methods in proof planning
Symbolic computation and automated reasoning
MBase: representing knowledge and context for the intergration of mathematical software systems
Journal of Symbolic Computation - Calculemus-99: integrating computation and deduction
Agent negotiation as proof search in linear logic
Proceedings of the first international joint conference on Autonomous agents and multiagent systems: part 2
Designing Interactive Speech Systems: From First Ideas to User Testing
Designing Interactive Speech Systems: From First Ideas to User Testing
Compiling Source Descriptions for Efficient and Flexible Information Integration
Journal of Intelligent Information Systems
Resource-distribution via Boolean constraints
ACM Transactions on Computational Logic (TOCL)
The Conceptual Basis for Mediation Services
IEEE Expert: Intelligent Systems and Their Applications
Experiments with an Agent-Oriented Reasoning System
KI '01 Proceedings of the Joint German/Austrian Conference on AI: Advances in Artificial Intelligence
CADE-18 Proceedings of the 18th International Conference on Automated Deduction
The Use of Explicit Plans to Guide Inductive Proofs
Proceedings of the 9th International Conference on Automated Deduction
Reconstruction Proofs at the Assertion Level
CADE-12 Proceedings of the 12th International Conference on Automated Deduction
Transforming Matings into Natural Deduction Proofs
Proceedings of the 5th Conference on Automated Deduction
A task-oriented agent-based mechanism for theorem proving
IAT '03 Proceedings of the IEEE/WIC International Conference on Intelligent Agent Technology
Assertion application in theorem proving and proof planning
IJCAI'03 Proceedings of the 18th international joint conference on Artificial intelligence
A compositional framework for the specification of interaction protocols in multiagent organizations
Web Intelligence and Agent Systems
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We present an agent-based mechanism that acts as a mediator module between theorem proving systems and mathematical knowledge bases containing information that is necessary for the constructions of proofs. Unlike the more popular user-oriented mediators who work as information agents to provide the so-called value-added services to the collected data before presenting it to users or user applications, our (multi-) agents are more task-oriented. That is, our agents work in tandem with the user or user application on the tasks the user is trying to solve. This approach is particularly suitable to mathematical knowledge retrieval in theorem proving as (i) checking for applicable axioms/definitions/theorems from the knowledge base can be done independently from the proof search process concurrently carried out by the prover, and (ii) the prover and the mediator operate on two different search spaces and the search outcome brought about by the mediator can be of great benefit to the prover, e.g. to avoid the prover from exploring many unnecessary or irrelevant proof steps, to keep the prover's search space more manageable and the constructed proof more comprehensible.