Translucent Replication for Service Level Assurance.- Trustworthiness Assessment Framework for Net-Centric Systems.- A Trust Monitoring Architecture for Service-Based Software.- Human Interoperability Enterprise for High-Assurance Systems.- Service Composition Quality Evaluation in SPICE Platform.- High-Assurance Service Systems.- A Graph Grammar Approach to Behavior Verification of Web Services.- A Formal Framework for Developing High Assurance Event Driven Service-Oriented Systems.- Towards A Dependable Software Paradigm for Service-Oriented Computing.- Developing Dependable Systems by Maximizing Component Diversity.- High Assurance BPEL Process Models.- Specifying Enterprise Web-Oriented Architecture.- Designing an SOA for P2P On-Demand Video Delivery.- A Coverage Relationship Model for Test Case Selection and Ranking for Multi-version Software.
Service computing is a cutting-edge area, popular in both industry and academia. New challenges have been introduced to develop service-oriented systems with high assurance requirements. High Assurance Services Computing captures and makes accessible the most recent practical developments in service-oriented high-assurance systems.
An edited volume contributed by well-established researchers in this field worldwide, this book reports the best current practices and emerging methods in the areas of service-oriented techniques for high assurance systems. Available results from industry and government, R&D laboratories and academia are included, along with unreported results from the "hands-on" experiences of software professionals in the respective domains.
Designed for practitioners and researchers working for industrial organizations and government agencies, High Assurance Services Computing is also suitable for advanced-level students in computer science and engineering.
Covers service-oriented technologies in different domains including high assurance systems
Assists software engineers from industry and government laboratories who develop mission-critical software, and simultaneously provides academia with a practitioner's outlook on the problems of high-assurance software development