The Byzantine Generals Problem
ACM Transactions on Programming Languages and Systems (TOPLAS)
Fail-stop processors: an approach to designing fault-tolerant computing systems
ACM Transactions on Computer Systems (TOCS)
Fast Similarity Search in the Presence of Noise, Scaling, and Translation in Time-Series Databases
VLDB '95 Proceedings of the 21th International Conference on Very Large Data Bases
Transparent Fault Tolerance for Web Services Based Architectures
Euro-Par '02 Proceedings of the 8th International Euro-Par Conference on Parallel Processing
A Reactive Service Composition Architecture for Pervasive Computing Environments
PWC '02 Proceedings of the IFIP TC6/WG6.8 Working Conference on Personal Wireless Communications
Introspective Failure Analysis: Avoiding Correlated Failures in Peer-to-Peer Systems
SRDS '02 Proceedings of the 21st IEEE Symposium on Reliable Distributed Systems
Declarative Composition and Peer-to-Peer Provisioning of Dynamic Web Services
ICDE '02 Proceedings of the 18th International Conference on Data Engineering
Fault-tolerant, Scalable, Wide-Area Internet Service Composition
Fault-tolerant, Scalable, Wide-Area Internet Service Composition
SELF-SERV: a platform for rapid composition of web services in a peer-to-peer environment
VLDB '02 Proceedings of the 28th international conference on Very Large Data Bases
A middleware for context-aware agents in ubiquitous computing environments
Proceedings of the ACM/IFIP/USENIX 2003 International Conference on Middleware
Context-aware systems: A literature review and classification
Expert Systems with Applications: An International Journal
Improving peer-to-peer search performance through intelligent social search
Expert Systems with Applications: An International Journal
| Hi-index | 12.05 |
Peer-to-Peer applications harness sharing between free resources (storage, contents, services, human presence, etc.). Most existing wireless P2P applications concern merely the sharing of a variety of contents. For magnifying the sharing extent for wireless service provision in the vicinity (i.e., the wireless P2P environments), this paper presents the UbiSrvInt approach and this is the first attempt to enable a pure P2P solution that is context aware and fault tolerant for ad hoc wireless service provision. This approach empowers an autonomous peer to propel distributed problem solving (e.g., in the travel domain) through service sharing and execution in an intelligent P2P way. This approach of ad hoc wireless service provision is not only highly robust to failure (based on a specific clustering analysis of failure correlation among peers) but also capable of inferring a user's service needs (through a BDI reasoning mechanism utilizing the surrounding context) in ad hoc wireless environments. We have implemented UbiSrvInt into a system platform with P-JXTA that shows fairly promising performance results on fault tolerance and context awareness.