Intelligent negotiation mechanism for supporting the interoperability within the sensing enterprise

The authors wish to acknowledge the support of the European Commission through the funding of the UNITE, MSEE and IMAGINE FP7 projects, and the European Space Agency - Concurrent Design Facility (ESA-CDF) for their support in the development of the business case presented in this paper.The Sensing Enterprise is a novel concept that refers to an enterprise anticipating future decisions by using multi-dimensional information captured through physical and virtual objects. The Sensing Enterprise concept is shifting focus towards a borderless enterprise, having at its core the collaboration and continuous interactions among smart objects and systems. But in the actual competitive and global business context, the maintenance of the collaboration environment through the interoperation among heterogeneous smart virtual and physical objects in a collaborative organizational environment becomes difficult to achieve. Therefore, in a dynamic context a change in any component of the networked partners affects the others, creating difficulties to sustain operating networked environment. In this respect, this paper proposes an intelligent negotiation framework as a key mechanism to achieve and maintain the interoperability between the organisations' smart objects and applications, and its validation in an industrial scenario. To allow a sustainable, flexible and generic approach towards the infrastructure implementation in global scale, a cloud-based platform is proposed for setting of the Sensing Enterprise framework.publishersversionpublishe

Comparative Study of Self-organizing Robotic Systems Regarding Basic Architecture

International audienceSelf-organization has become an intensely researched area, being considered the new control system science. Different self-organizing algorithms (bio and non-bio inspired) have been developed by scientist worldwide with general applicability in autonomous systems, multi-robot systems, autonomic networking, sensor and actor networks and mobile ad hoc networks. This paper presents a comparative analysis of basic architectures for multi-robot systems from the point of view of self-organization capabilities. We identify requirements for implementing efficiently self-organization mechanisms with high applicability in multi-robot systems

Towards A General Systems Theory Approach for Developing Concurrent Engineering Science

Information, as a specific commodity, sustains our knowledge production in every domain of human activities. But the Knowledge-based Economy (KbE), requires intensive information and Knowledge Management. The KM is the key-factor of enterprises competitiveness (LS- large scale enterprises; SME- small and medium size Enterprise ;μE- micro size enterprises). Even the e-workers, immersed in Professional Virtual Communities must use efectively both basic concepts, methodology, methods and techniques from concurent engineering science. To design the Complex Adaptive Systems, is our our long-term research target. The present paper is an ambitious attempt to initiate a global collaborative project for the DCCE scientifically foundation based on General Systems Theory holistic approach.Pages: 3-1