MAS Modeling Based on Organizations
Agent-Oriented Software Engineering IX
Using an Agent-Supported Simulation Environment for Intelligent Manufacturing Systems
HoloMAS '09 Proceedings of the 4th International Conference on Industrial Applications of Holonic and Multi-Agent Systems: Holonic and Multi-Agent Systems for Manufacturing
Towards the Specification of Recursive Multi-agent Systems Using Type Theory
WI-IAT '09 Proceedings of the 2009 IEEE/WIC/ACM International Joint Conference on Web Intelligence and Intelligent Agent Technology - Volume 02
On the development of an agent supported e-manufacturing environment
ETFA'09 Proceedings of the 14th IEEE international conference on Emerging technologies & factory automation
Specifying and verifying holonic agents with GDT4MAS
International Journal of Agent-Oriented Software Engineering
Evaluating software engineering techniques for developing complex systems with multiagent approaches
Information and Software Technology
Specifying recursive agents with GDTs
Autonomous Agents and Multi-Agent Systems
Infrastructures and tools for multiagent systems for the new generation of distributed systems
Engineering Applications of Artificial Intelligence
Multilayer automated methods for the system integration
CDVE'11 Proceedings of the 8th international conference on Cooperative design, visualization, and engineering
The control of myopic behavior in semi-heterarchical production systems: A holonic framework
Engineering Applications of Artificial Intelligence
A holonic approach to flexible flow shop scheduling under stochastic processing times
Computers and Operations Research
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ANEMONA is a multi-agent system (MAS) methodology for holonic manufacturing system (HMS) analysis and design. ANEMONA defines a mixed top-down and bottom-up development process, and provides HMS-specific guidelines to help designers identify and implement holons. The analysis phase is defined in two stages: System Requirements Analysis, and Holon Identification and Specification. This analysis provides high-level HMS specifications, adopting a top-down recursive approach which provides a set of elementary elements and assembling rules. The next stage is Holon Design, a bottom-up process to produce the system architecture from the analysis models. The Holons Implementation stage produces an Executable Code for the SetUp and Configuration stage. Finally, maintenances functions are executed in the Operation and Maintenance stage. The book will be of interest to researchers and students involved in artificial intelligence and software engineering, and manufacturing engineers in industry and academia.