A Domain Specific Language For The Control Of Self Adaptive Component

A Domain Specific Language For The Control Of Self Adaptive Component We tackled this problem by first proposing a high level domain specific language, named ctrl f, which allows for the description of adaptation behaviours and policies of component based architectures and then by relying on discrete control to ensure correct adaptive behaviours. This article proposes the design of self adaptive software components based on logical discrete control approaches, in which the self adaptive behavioural models enriches component controllers with a knowledge not only on events, configurations and past history, but also with possible future configurations.

Self Adaptive Component Initialization Download Scientific Diagram In this paper, we propose a uml profile that represents the higher level abstractions required to provide support for sass conceptual modeling. we developed the uml profile by modeling the domain of interest and extending the uml class metaclass. We propose a domain specific modeling language, fcdl, for integrating adaptation mechanisms into software systems through external fcls. it raises the level of abstraction, making fcls amenable. This dsl aims to model multi layered and self adaptive iot systems focusing on three main contributions: (1) modeling primitives covering the four layers of an iot system, including iot devices (sensors or actuators), edge, fog, and cloud nodes; (2) modeling the deployment of container based applications on those nodes; and (3) a specific. Highlights ctrl f: a high level language for describing adaptive behaviours and poli cies of componentbased architecture. formal de nition of ctrl f's semantics with nite state automata models.

Figure 2 From Domain Specific Modeling Language For Self Adaptive This dsl aims to model multi layered and self adaptive iot systems focusing on three main contributions: (1) modeling primitives covering the four layers of an iot system, including iot devices (sensors or actuators), edge, fog, and cloud nodes; (2) modeling the deployment of container based applications on those nodes; and (3) a specific. Highlights ctrl f: a high level language for describing adaptive behaviours and poli cies of componentbased architecture. formal de nition of ctrl f's semantics with nite state automata models. We propose the design of self adaptive software components based on logical discrete control approaches, in which the self adaptive behavioural models enrich component controllers with a knowledge not only on events, configurations and past history, but also with possible future configurations. We present a domain specific language, called msl for mape specification language, to define and instantiate mape patterns and to give semantics to some semantic variation points of the equivalent graphical notation for mape pattern. Self adaptive systems are capable of autonomously modifying their behavior at run time in response to changing environmental conditions. in order to modify the. This paper presents ctrl f, a domain specific language whose objective is to provide high level support for describing adaptation behaviours and policies in component based architectures. it relies on reactive programming for formal verification and control of reconfigurations.

Self Adaptive Component Initialization Download Scientific Diagram We propose the design of self adaptive software components based on logical discrete control approaches, in which the self adaptive behavioural models enrich component controllers with a knowledge not only on events, configurations and past history, but also with possible future configurations. We present a domain specific language, called msl for mape specification language, to define and instantiate mape patterns and to give semantics to some semantic variation points of the equivalent graphical notation for mape pattern. Self adaptive systems are capable of autonomously modifying their behavior at run time in response to changing environmental conditions. in order to modify the. This paper presents ctrl f, a domain specific language whose objective is to provide high level support for describing adaptation behaviours and policies in component based architectures. it relies on reactive programming for formal verification and control of reconfigurations.

Domain Adaptive Code Completion Via Language Models And Decoupled Self adaptive systems are capable of autonomously modifying their behavior at run time in response to changing environmental conditions. in order to modify the. This paper presents ctrl f, a domain specific language whose objective is to provide high level support for describing adaptation behaviours and policies in component based architectures. it relies on reactive programming for formal verification and control of reconfigurations.