Software applications executing in highly dynamic environments are faced with the challenge of frequent and usually unpredictable changes in their execution environment. In order to cope with this challenge e#ectively, the applications need to adapt to these changes dynamically.

Abstract. The use of handheld networked devices to access information systems by people moving around is spreading rapidly. Systems being used in this way typically face dynamic variation in their operating environment. This poses new challenges for system developers that need to build systems that adapt dynamically to the changing operating environment in order to maintain usability and usefulness for mobile users. In this paper we propose an approach to building such self-adapting systems where the adaptation is handled by generic middleware. Our approach builds on component frameworks and variability engineering to achieve adaptable systems, and property modelling, architectural reflection and context monitoring to support dynamic self-adaptation. 1

2 Implementation task..........................................................................................................................2 2.1 Existing implementation analysis..............................................................................................2

Abstract—In-vehicle infotainment applications often have to contend with different degrees of unpredictability. These applications can benefit if they can specify quality requirements to the service they access. This paper presents our attempt to apply Model Driven Architecture (MDA) technology to integrate the Quality of Service (QoS) requirements for In-vehicle Human Machine Interface (HMI) clients of infotainment applications. QoS subsystem of Human Machine Interface framework provides the essential QoS modelling support to specify QoS related requirements. QoS modelling constructs and components of the Infotainment Human Machine Interface Framework (iHMIFw) support construction of platform independent model of infotainment HMI applications with required QoS specifications. A model transformation has been described that is supported by the framework and results into XML description of QoS specifications. Index Terms — Human Machine Interface (HMI) Framework, Model Driven Architecture, Quality of Service, Unified modelling Language (UML).

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