Thesis Type: Postgraduate
Institution Of The Thesis: Middle East Technical University, Turkey
Approval Date: 2015
Thesis Language: English
Student: Erhan Akagündüz
Co-Supervisor: MEHMET HALİT S. OĞUZTÜZÜN, ŞENAN ECE SCHMİDT
Abstract:Cyber-physical systems integrate the computation and physical processes. Embedded computing systems are used to control and monitor physical processes. Development of software for cyber-physical systems requires deep knowledge on different engineering areas and physics. Embedded software for a cyber-physical system requires software architectures to separate works done by software developers and dynamic model developers. AUTOSAR is a layered software architecture to develop automotive systems. Main purpose of the AUTOSAR layered software architecture is to separate software development process from hardware details. FMI, on the other hand, is a tool-independent dynamic model interface standard. In this thesis, a layered software architecture RSAR is proposed for cyber-physical systems development. RSAR adheres to the layered software architecture concept of AUTOSAR and supports dynamic model usage with FMI standard.