System Support for Self-Adaptive Cyber-Physical Systems

Abstract

As the number of interacting devices and the complexity of cyber-physical systems increases, self-adaptation is a natural solution to address challenges faced by software developers. To provide a systematic and unified solution to support the development and execution of cyber-physical systems, this doctoral thesis proposes the creation of an environment that offers mechanisms to facilitate the technology-independent communication and uncoupled interoperable coordination between interacting entities of the system, as well as the flexible and adaptable execution of the functionalities specified for each application. The outcome is a set of modules to help developers to face the challenges of cyber-physical systems.