Dynamic Configuration for Distributed Systems
IEEE Transactions on Software Engineering
On coping with real-time software dynamic inconsistency by built-in tests
Annals of Software Engineering
Toward an OSGi-Based Infrastructure for Context-Aware Applications
IEEE Pervasive Computing
The MORABIT Approach to Runtime Component Testing
COMPSAC '06 Proceedings of the 30th Annual International Computer Software and Applications Conference - Volume 02
Ubiquitous RATs: how resource-aware run-time tests can improve ubiquitous software systems
Proceedings of the 6th international workshop on Software engineering and middleware
Reducing verification effort in component-based software engineering through built-in testing
Information Systems Frontiers
Dynamic Reconfigurable Testing of Service-Oriented Architecture
COMPSAC '07 Proceedings of the 31st Annual International Computer Software and Applications Conference - Volume 01
Testing Challenges of Maritime Safety and Security Systems-of-Systems
TAIC-PART '08 Proceedings of the Testing: Academic & Industrial Conference - Practice and Research Techniques
Quality Assurance of Software Applications Using the In Vivo Testing Approach
ICST '09 Proceedings of the 2009 International Conference on Software Testing Verification and Validation
Guaranteeing correctness of component bindings in dynamic adaptive systems based on runtime testing
Proceedings of the 4th international workshop on Services integration in pervasive environments
Data-flow integration testing adapted to runtime evolution in component-based systems
Proceedings of the 2009 ESEC/FSE workshop on Software integration and evolution @ runtime
Evaluation of online testing for services: a case study
Proceedings of the 2nd International Workshop on Principles of Engineering Service-Oriented Systems
Safe runtime validation of behavioral adaptations in autonomic software
ATC'11 Proceedings of the 8th international conference on Autonomic and trusted computing
| Hi-index | 0.00 |
Service-based systems are operating in dynamic environments characterized by continual changes such as requirement evolution, service crash or service unavailability. In this context, improving the quality of these systems after such evolution is highly demanded. With the aim of checking their behaviors at runtime and detecting faults introduced after dynamic changes, a runtime testing approach is applied. An effective Runtime Testing Framework For Adaptable and Distributed Systems called RTF4ADS is then proposed. This framework is conceived in order to reduce runtime testing side effects as timing and resource usage costs, interference risks while improving its fault finding capabilities. To show the relevance of RTF4ADS prototype, a case study in the healthcare domain implemented in the OSGi platform is given.