The essential distributed objects survival guide
The essential distributed objects survival guide
Seven good reasons for mobile agents
Communications of the ACM
Support for component based systems: can contemporary technology cope?
BASYS '98 Proceedings of the 3rd IEEE/IFIP international conference on Intelligent systems for manufacturing : multi-agent systems and virtual organizations: multi-agent systems and virtual organizations
Mobile agents with Java: The Aglet API
World Wide Web
A Hands-On Look at Java Mobile Agents
IEEE Internet Computing
Proceedings of the Second International Workshop on Mobile Agents
MA '98 Proceedings of the Second International Workshop on Mobile Agents
Is it an Agent, or Just a Program?: A Taxonomy for Autonomous Agents
ECAI '96 Proceedings of the Workshop on Intelligent Agents III, Agent Theories, Architectures, and Languages
Hive: Distributed Agents for Networking Things
ASAMA '99 Proceedings of the First International Symposium on Agent Systems and Applications Third International Symposium on Mobile Agents
Agent tcl: a flexible and secure mobile-agent system
Agent tcl: a flexible and secure mobile-agent system
A Note on Distributed Computing
A Note on Distributed Computing
Programming the Mobility Behaviour of Agents by Composing Itineraries
ASIAN '99 Proceedings of the 5th Asian Computing Science Conference on Advances in Computing Science
An Overview of the Use of Mobile Agents in Virtual Environments
IVA '01 Proceedings of the Third International Workshop on Intelligent Virtual Agents
Hi-index | 0.00 |
Mobile code is being championed as a solution to a plethora of software problems. This paper investigates whether Mobile Agents and Mobile Objects support improved system integration and agility in the manufacturing domain. We describe two systems built to support the Sales Order Process of a distributed manufacturing enterprise, using IBM's Aglets Software Development Kit. The Sales Order Process model and the requirements for agility used as the basis for these implementations are derived from data collected in an industrial case study. Both systems are evaluated using the Goal/Question/Metric methodology. Two new metrics for Semantic Alignment and Change Capability are presented and used to evaluate each system with respect to the degree of system agility supported. The work described provides evidence that both Mobile Agent and Mobile Object systems have inherent properties that can be used to build agile distributed systems. Further, Mobile Agents with their additional autonomy provide marginally greater support.