Practical Applications of Virtual Organizations and Agent Technology

Computation as interaction paradigm can be considered the most promising technological evolution in the areas of Computer Science and Communication in the last few years. Recent tendencies have conducted to the use of Virtual Organizations (VOs), which can be considered as a set of individuals and institutions that need to coordinate resources and services across institutional boundaries. Multi-agent systems (MAS) technology, which allows forming dynamic agent organizations, is particularly well suited as a support for the development of these open systems. PANGEA is an agent platform to develop open multi-agent systems, specifically those including organizational aspects such as virtual agent organizations. The platform allows the integral management of organizations and offers tools to the end user. Additionally, it includes a communication protocol based on the IRC standard, which facilitates implementation and remains robust even with a large number of connections.

[1]  Rafael H. Bordini,et al.  Jason and the Golden Fleece of Agent-Oriented Programming , 2005, Multi-Agent Programming.

[2]  Franco Zambonelli Abstractions and Infrastructures for the Design and Development of Mobile Agent Organizations , 2001, AOSE.

[3]  Leon van der Torre,et al.  Normative multiagent systems , 2004 .

[4]  Javier Bajo,et al.  PANGEA - Platform for Automatic coNstruction of orGanizations of intElligent Agents , 2012, DCAI.

[5]  Franco Zambonelli,et al.  Developing multiagent systems: The Gaia methodology , 2003, TSEM.

[6]  Jacques Ferber,et al.  From Agents to Organizations: An Organizational View of Multi-agent Systems , 2003, AOSE.

[7]  Jürgen Dix,et al.  Multi-Agent Programming: Languages, Tools and Applications , 2009 .

[8]  Michael Wooldridge,et al.  Agent technology: foundations, applications, and markets , 1998 .

[9]  H. Van Dyke Parunak,et al.  Representing social structures in UML , 2001, AGENTS '01.

[10]  Javier Bajo,et al.  Proximity Detection Prototype Adapted to a Work Environment , 2012, ISAmI.

[11]  Olivier Boissier,et al.  Using the Moise+ for a Cooperative Framework of MAS Reorganisation , 2004, SBIA.

[12]  Christophe Kalt,et al.  Internet Relay Chat: Client Protocol , 2000, RFC.

[13]  Michael Wooldridge,et al.  Agent-Oriented Software Engineering II , 2002, Lecture Notes in Computer Science.

[14]  Jörg P. Müller,et al.  Agent-Oriented Software Engineering IV , 2003, Lecture Notes in Computer Science.

[15]  Vladimir Marik,et al.  Multi-Agent Systems and Applications III , 2003, Lecture Notes in Computer Science.

[16]  Alessandra Russo,et al.  Advances in Artificial Intelligence – SBIA 2004 , 2004, Lecture Notes in Computer Science.

[17]  Andrea Omicini,et al.  Coordination artifacts: environment-based coordination for intelligent agents , 2004, Proceedings of the Third International Joint Conference on Autonomous Agents and Multiagent Systems, 2004. AAMAS 2004..

[18]  Victor C. M. Leung,et al.  Mobile Agent-Based Directed Diffusion in Wireless Sensor Networks , 2007, EURASIP J. Adv. Signal Process..

[19]  Stéphane Galland,et al.  Janus: Another Yet General-Purpose Multiagent Platform , 2010 .

[20]  Paulo Novais,et al.  Ambient Intelligence - Software and Applications - 4th International Symposium on Ambient Intelligence, ISAmI 2013, Salamanca, Spain, May 22-24, 2013 , 2013, ISAmI.

[21]  Jorge J. Gómez-Sanz,et al.  Agent Oriented Software Engineering with INGENIAS , 2003, CEEMAS.

[22]  José Bravo,et al.  Modeling contexts by RFID-sensor fusion , 2006, Fourth Annual IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOMW'06).

[23]  M. V. Dignum,et al.  A Model for Organizational Interaction: based on Agents, founded in Logic , 2000 .

[24]  Michael N. Huhns,et al.  Multiagent systems and societies of agents , 1999 .

[25]  Jarkko Oikarinen,et al.  Internet Relay Chat Protocol , 1993, RFC.