Most Popular Papers

In the field of technology the verification of the robustness of a system is very important. This system verification compares the actual with the origin bearing in mind that any anomaly could lead to a catastrophe. The control could be in different forms: either measure, or test the first control is done to measure the physical parameters in order to confirm system reliability as it is the case of « 2CRM » (Connection, Control, Recognition and Measure) [1]. The second control enables a remote experimentation to certify credibility of the terminal. Our article presents a new architecture of control « 2CRT » (Connection, Control, Recognition and Test). Its newness is based on the distribution of actions as it is based on multi-agent systems. The control is done remotely via the web using Real Time constraints. It meets to the functionalities of distribution, cooperation and adaptation to the changes in user behavior, environments and materials. Notably, the approach includes the test control mode of telecommunication terminals. The solution is based upon the Manhattan mobility with the possibility of integrating other topologies. This experimentation is done via the web by matrix configurations using FIFO (First In First Out) data structures. To further embody our architecture, we perfected it in the OpenAirInterface project of the Eurecom laboratory in France. Our control platform was developed using the unified process « RUP » (Rational Unified Process) [2] with the use of the UML modelization to well illustrate the system. It is implemented by an open source distribution (Java and J2ee running on Eclipse).
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Measure Control; Test Control; Distributed Systems; Real Time; 2CRM; 2CRT; Multi-Agent Systems; Physical Parameters; Labyrinth; Telecommunication Terminals; Manhattan Mobility; Matrix Configurations; FIFO; Openairinterface; RUP; UML; J2ee

M. El Bakkali, H. Medromi, A Multi-Agent Systems based on a Real-time distributed “2CRM" Robot Platform for the measurement of telecommunications Lines and terminals, (2010) International Review on Computers and Software (IRECOS), 5 (6), pp. 701-705.

Philippe Kruchten / Introduction to Rational Unified Process, Eyrolles - January 2000.

Guy Pujolle /Networks – 2008.

Claude Servin / Networks and Telecoms – 2003.

TIPHON / www.etsi.org/TIPHON - 2007.

Vilho Räisänen / Implementing service quality in IP networks - 2003.

Marcien Mackaya / Test of the protocols and services of mobility, doctoral thesis at bordeaux I university - March 2005.

Claude Jard and Thierry Jéron / TGV: theory, principles and algorithms - Integrated Design and Process Technology, Printed in the United States of America, June, 2002.

Platonis is a multi-protocol and multi service experimentation and validation platform of the Réseau National de Recherche en Télécommunications « RNRT » et it's partners: INT, Labri- Bordeaux university, Limos- Univ. Blaise Pascal, Clermont Ferrand, France Telecom R&D et Kaptech. http://www-lor.int-evry.fr/platonis/resume.html

H. Medromi, F. Qrichi Aniba, A. Sayouti. “Real Time Distributed Architecture based on Multi-Agent System”. Second edition of the IT and decisional Math forum (JIMD'2008), ENSIAS, Rabat, Morocco, 3-5 July, 2008.

Francis Cottet, Emmanuel Grolleau / Real Time Control-Command systems, Conception and implementation – 2005.

Software/Hardware open source development platform www.OpenAirInterface.com

George Aggélou / Next Wireless Mesh Networking – 2009.

Wale soyinka / Wireless Network Administration, A Beginner’s Guide – 2010.

Jérôme Härri, Marco Fiore, Fethi Filali, Christian Bonnet / Vehicular Mobility Simulation with VanetMobiSim, The Society for Modeling and Simulation International (http://sim.sagepub.com/) - Janvier 2009.

Barbara Dunin-Keplicz, Rineke Verbrugge / Teamwork in multi-agent systems, A Formal Approach - 2010.

Pascal Roques, Franck Vallée / UML 2 in action from needs analysis to the design, fourth edition– 2007.