TY  - BOOK
AU  - Hannebauer,Markus
ED  - SpringerLink (Online service)
TI  - Autonomous Dynamic Reconfiguration in Multi-Agent Systems: Improving the Quality and Efficiency of Collaborative Problem Solving 
T2  - Lecture Notes in Computer Science,
SN  - 9783540458340
AV  - Q334-342 
U1  - 006.3 23
PY  - 2002///
CY  - Berlin, Heidelberg
PB  - Springer Berlin Heidelberg
KW  - Computer science
KW  - Computer Communication Networks
KW  - Information systems
KW  - Artificial intelligence
KW  - Management information systems
KW  - Computer Science
KW  - Artificial Intelligence (incl. Robotics)
KW  - Programming Languages, Compilers, Interpreters
KW  - Information Systems Applications (incl.Internet)
KW  - Computers and Society
KW  - Business Information Systems
N1  - 1.Overview -- 2. Basics of Collaborative Problem Solving -- Theoretical Foundations -- 3. Distributed Constraint Problems — A Model for Collaborative Problem Solving -- 4. Autonomous Dynamic Reconfiguration — Improving Collaborative Problem Solving -- Practical Concepts -- 5. Multi-agent System Infrastructure -- 6. External Constraint Problem Solving -- 7. Composable BDI Agents -- 8. Internal Constraint Problem Solving -- 9. Controlling Agent Melting and Agent Splitting -- Assessment -- 10. Evaluation -- 11. Conclusion and Future Work -- A. Symbols and Abbreviations -- B. An XML-Encoded Request Message -- C. SICStus Prolog Code for Internal Constraint Problem Solving -- D. Initialization of the Hospital Scenario Generator
N2  - High communication efforts and poor problem solving results due to restricted overview are two central issues in collaborative problem solving. This work addresses these issues by introducing the processes of agent melting and agent splitting that enable individual problem solving agents to continually and autonomously reconfigure and adapt themselves to the particular problem to be solved. The author provides a sound theoretical foundation of collaborative problem solving itself and introduces various new design concepts and techniques to improve its quality and efficiency, such as the multi-phase agreement finding protocol for external problem solving, the composable belief-desire-intention agent architecture, and the distribution-aware constraint specification architecture for internal problem solving. The practical relevance and applicability of the concepts and techniques provided are demonstrated by using medical appointment scheduling as a case study
UR  - http://dx.doi.org/10.1007/3-540-45834-4
ER  -