Collaborative resource discovery in pervasive computing environments

Collaborative resource discovery mechanisms are available for environments with stationary to semi- stationary resources. Yet in pervasive computing environments, where all nodes are mobile and many of which connect in and ad hoc manner, incorporating those dynamic mobile resources introduces a new...

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Bibliographic Details
Main Authors: Al-Jaroodi, J., Kharhash, A., AlDhahiri, A., Shamisi, A., Dhaheri, A., AlQayedi, F., Dhaheri, S.
Format: Conference Proceeding
Language:English
Subjects:
Collaboration
Collaborative Agents
Collaborative work
Computer networks
Distributed computing
Middleware
Mobile computing
Personal digital assistants
Pervasive computing
Resource Discovery
Resource management
Wireless networks
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Summary:Collaborative resource discovery mechanisms are available for environments with stationary to semi- stationary resources. Yet in pervasive computing environments, where all nodes are mobile and many of which connect in and ad hoc manner, incorporating those dynamic mobile resources introduces a new set of requirements. The main issue is the lack of a reference point - a minimum of one stationary node that can be used as a start point for the environment's organizational architecture. As a result, one of the requirements becomes discovering when a resource is available and making it available for users/applications. Another is identifying the resources, their current locations and mobility attributes. In addition, there is the need to provide users/applications with the tools to identify moving resources and discover when they become unavailable. In this paper, we introduce a middleware framework for collaborative resource discovery in fully mobile and pervasive environments. The proposed framework provides decentralized mechanisms to dynamically discover resources, include them in a usable collective, and manage their mobility requirements. The framework involves a decentralized collaboration of software agents residing on the group members' nodes to collect, organize and efficiently exchange resources information, while keeping track of the nodes' mobility.
DOI:10.1109/CTS.2008.4543923