Using weaves for software construction and analysis
ICSE '91 Proceedings of the 13th international conference on Software engineering
On the criteria to be used in decomposing systems into modules
Communications of the ACM
The structure and value of modularity in software design
Proceedings of the 8th European software engineering conference held jointly with 9th ACM SIGSOFT international symposium on Foundations of software engineering
Design Rules: The Power of Modularity Volume 1
Design Rules: The Power of Modularity Volume 1
Towards architecture-based self-healing systems
WOSS '02 Proceedings of the first workshop on Self-healing systems
Self-organising software architectures for distributed systems
WOSS '02 Proceedings of the first workshop on Self-healing systems
A Product Family Approach to Graceful Degradation
DIPES '00 Proceedings of the IFIP WG10.3/WG10.4/WG10.5 International Workshop on Distributed and Parallel Embedded Systems: Architecture and Design of Distributed Embedded Systems
Information hiding interfaces for aspect-oriented design
Proceedings of the 10th European software engineering conference held jointly with 13th ACM SIGSOFT international symposium on Foundations of software engineering
Simon: modeling and analysis of design space structures
Proceedings of the 20th IEEE/ACM international Conference on Automated software engineering
Software Abstractions: Logic, Language, and Analysis
Software Abstractions: Logic, Language, and Analysis
SIGF: a family of configurable, secure routing protocols for wireless sensor networks
Proceedings of the fourth ACM workshop on Security of ad hoc and sensor networks
Modularity in design: formal modeling and automated analysis
Modularity in design: formal modeling and automated analysis
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Although self-adaptivity is emerging as an important system property, designers still lack principled and systematic methods for developing, reasoning about, and synthesizing specifications, architectures, and implementations for such systems. I exploit recent work on design structure and design-time adaptive capacity to devise a method for specifying, modularizing and synthesizing mechanisms for runtime self-adaptation. Results of an early evaluation of my method on a widely studied model problem suggest that it contributes to our knowledge of self-adaptive systems and has the potential to improve their design