Hot service deployment in an ad hoc grid environment
Proceedings of the 2nd international conference on Service oriented computing
A heterogeneous storage grid enabled by grid service
ACM SIGOPS Operating Systems Review
Journal of Parallel and Distributed Computing - Special issue: Security in grid and distributed systems
Resource evaluation and node monitoring in service oriented ad-hoc grids
AusGrid '08 Proceedings of the sixth Australasian workshop on Grid computing and e-research - Volume 82
A hybrid mechanism for resource/service discovery in ad-hoc grids
Future Generation Computer Systems
Authorization through trust chains in ad hoc grids
Proceedings of the 2009 Euro American Conference on Telematics and Information Systems: New Opportunities to increase Digital Citizenship
Efficient resource allocation in ad hoc grid: model, algorithm and simulation
International Journal of Information and Communication Technology
Economic agent-based resource management in ad hoc grid environment
International Journal of Networking and Virtual Organisations
Design and implementation of economics-based resource management system in ad hoc grid
Advances in Engineering Software
Self-healing execution of business processes based on a peer-to-peer service architecture
ARCS'05 Proceedings of the 18th international conference on Architecture of Computing Systems conference on Systems Aspects in Organic and Pervasive Computing
TOSKANA: a toolkit for operating system kernel aspects
Transactions on Aspect-Oriented Software Development II
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In its current state, service-oriented grid computing focuses on the unification of resources through virtualization, to enable on demand distributed computing within a preconfigured environment. Organizations or inter-organizational communities willing to share their computational resources typically create a centrally planned grid, where dedicated grid administrators manage the nodes and the offered grid services. In this paper, we present the idea of a spontaneously formed, service-oriented ad hoc grid to harness the unused resources of idle networked workstations and high-performance computing nodes on demand. We discuss the requirements of such an ad hoc grid, show how the service-oriented computing paradigm can be used to realize it and present a proof-of-concept implementation based on the Globus Toolkit 3.0. The features of this system are peer-to-peer based node discovery, automatic node property assessment, hot deployment of services into a running system and added inter-service security.