SETI@HOME—massively distributed computing for SETI
Computing in Science and Engineering
Scalable Service Discovery for MANET
PERCOM '05 Proceedings of the Third IEEE International Conference on Pervasive Computing and Communications
Toward Distributed Service Discovery in Pervasive Computing Environments
IEEE Transactions on Mobile Computing
A Scalable Geographic Service Provision Framework for Mobile Ad Hoc Networks
PERCOM '07 Proceedings of the Fifth IEEE International Conference on Pervasive Computing and Communications
SPIZ: an effective service discovery protocol for mobile ad hoc networks
EURASIP Journal on Wireless Communications and Networking
A survey on context-aware systems
International Journal of Ad Hoc and Ubiquitous Computing
An algorithmic approach to geographic routing in ad hoc and sensor networks
IEEE/ACM Transactions on Networking (TON)
A survey of autonomic computing—degrees, models, and applications
ACM Computing Surveys (CSUR)
DSDM: A Distributed Service Discovery Model for Manets
IEEE Transactions on Parallel and Distributed Systems
Self-adaptive software: Landscape and research challenges
ACM Transactions on Autonomous and Adaptive Systems (TAAS)
SCN4M-DL: An Adaptive Directory-Less Service Discovery System for MANETs
ICPADS '09 Proceedings of the 2009 15th International Conference on Parallel and Distributed Systems
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What a service discovery system (SDS) pursues is to successfully discover the services at low costs if the qualified ones exist. However, dynamics and diversification in MANETs increases the complexity to achieve SDS's goal. This paper develops a SDS over MANETs named SCN4M-H. To enhance system quality, SCN4M-H combines two architecture styles and provides two working modes: basic mode and volunteer mode. In the basic mode, nodes in SCN4M-H work together as peer partners, mapping and discovering the services in a P2P style, and in the volunteer mode, the nodes who declare as volunteers will play the role of servers, they are responsible for dealing with the service discovery requests targeted for the nodes within specified regions. Depending on their own states as well as their neighbors' states, nodes in SCN4M-H can switch automatically from one mode to another. Moreover, two working modes can coexist in SCN4M-H at the same time, which enables a service discovery request to be dealt with in a locally optimal way. Some system properties are revealed and then extensive experiments are conducted. Experimental data indicate that SCN4M-H adapts well to various dynamic scenarios and shows satisfying software quality in terms of discovery success rate and corresponding costs.