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This paper introduces an approach which aims at improving information access (skills, services) in large networks. A self-organized multiagent analysis of the problem, reducing the number of messages transmitted for a skill search is proposed. The MWAC (Multi-Wireless-Agent Communication) model is extended here to take some specificities of social networks into account, like the information held by...
Designing a real world complex system requires to use decentralized artificial intelligence. Such a system involves self-organization techniques, advanced interaction models, real-time architectures... To simplify the design step, it can be necessary to reproduce the behavior of the whole designed system in a virtual environment before to deploy the designed application on the real world devices....
This paper deals with the application of the emergence paradigm to communication management in wireless instrumentation systems. We exploit the emergence resulting from a multiagent self-organization process. We propose a model of autonomous adaptive multiagent organization to route the information in the best way, taking into consideration strong constraints on energy resources, dynamical topology,...
Multiagent systems are well suited to specify and to design requirements for hardware / software collaborative systems. Designing embedded multiagent systems require skills in hardware design and in software design. However, up to now, no method allows to build software/hardware hybrid multiagent systems. This paper introduces the DIAMOND hardware/software codesign method.
Multiagent systems (MAS) satisfy to design requirements for open physical complex systems. However, up to now, no method allows to build software/hardware hybrid multi- agent systems : we introduce the DIAMOND method.
This paper deals with a multiagent self-organization process aiming to give adaptive features to distributed embedded systems involving intelligent agents in open real world. We propose a formal description of this model of self-organization.
Multiagent systems (MAS) are well suited to specify requirements far open physical complex systems. However, up to now, no method allows to actually build software/hardware hybrid MAS. This paper presents an original method far designing embedded MAS.
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