Inference modeling of gene regulatory networks

Dejori, Mathäus.

Unknown Date

Techn. University, Diss., 2005--München.

Adopting Architectural Event Modules for Modular Coordination of Multiple Applications

Malakuti, Somayeh, Zia, Mariam

30 September 2015

Nowadays, large-scale software systems consist of multiple applications, which interact with each other to fulfill desired system-level requirements. It is usually required to coordinate the interactions of the constituent applications to ensure that the system-level requirements are fulfilled. In this paper, we outline a set of requirements that must be fulfilled to facilitate the modular composition of multiple applications. We introduce the concept of architectural event modules, which are abstractions to represent constituent applications and their coordination logic in a modular and uniform way. We explain the implementation of this concept in the EventReactor language, and define their formal semantics in processing events using the UPPAAL toolset. We illustrate the suitability of architectural event modules in achieving modularity and loose coupling in the composition of multiple applications by means of a case study in the domain of energy-efficient computing.

Coordination

Modularity

Architectural Description Language

Rolle

Graphisches Modell

Objektmodell

Mathematisches Modell

Kontext

Formale Sprache

ddc:004

rvk:SS 5514

Adopting Architectural Event Modules for Modular Coordination of Multiple Applications

Malakuti, Somayeh, Zia, Mariam

30 September 2015

Nowadays, large-scale software systems consist of multiple applications, which interact with each other to fulfill desired system-level requirements. It is usually required to coordinate the interactions of the constituent applications to ensure that the system-level requirements are fulfilled. In this paper, we outline a set of requirements that must be fulfilled to facilitate the modular composition of multiple applications. We introduce the concept of architectural event modules, which are abstractions to represent constituent applications and their coordination logic in a modular and uniform way. We explain the implementation of this concept in the EventReactor language, and define their formal semantics in processing events using the UPPAAL toolset. We illustrate the suitability of architectural event modules in achieving modularity and loose coupling in the composition of multiple applications by means of a case study in the domain of energy-efficient computing.

info:eu-repo/classification/ddc/004

ddc:004

A Combined Formal Model for Relational Context-Dependent Roles (Extended)

Kühn , Thomas, Böhme, Stephan, Götz, Sebastian, Aßmann, Uwe

17 September 2015

Role-based modeling has been investigated for over 35 years as a promising paradigm to model complex, dynamic systems. Although current software systems are characterized by increasing complexity and context-dependence, all this research had almost no influence on current software development practice, still being discussed in recent literature. One reason for this is the lack of a coherent, comprehensive, readily applicable notion of roles. Researchers focused either on relational roles or context-dependent roles rather then combining both natures. Currently, there is no role-based modeling language sufficiently incorporating both the relational and context-dependent nature of roles together with the various proposed constraints. Hence, this paper formalizes a full-fledged role-based modeling language supporting both natures. To show its sufficiency and adequacy, a real world example is employed.

Rolle

Kontext

Compartment

Relational

kontextabhängig

rollenbasiert

Rollenmodel

formales Model

Role

Context

Compartment

Relational

Context-Dependent

Role-based

Role Model

Formal Model

ddc:004

rvk:SS 5514

Rolle

Graphisches Modell

Objektmodell

Mathematisches Modell

Kontext

Formale Sprache

A Combined Formal Model for Relational Context-Dependent Roles (Extended)

Kühn, Thomas, Böhme, Stephan, Götz, Sebastian, Aßmann, Uwe

17 September 2015

Role-based modeling has been investigated for over 35 years as a promising paradigm to model complex, dynamic systems. Although current software systems are characterized by increasing complexity and context-dependence, all this research had almost no influence on current software development practice, still being discussed in recent literature. One reason for this is the lack of a coherent, comprehensive, readily applicable notion of roles. Researchers focused either on relational roles or context-dependent roles rather then combining both natures. Currently, there is no role-based modeling language sufficiently incorporating both the relational and context-dependent nature of roles together with the various proposed constraints. Hence, this paper formalizes a full-fledged role-based modeling language supporting both natures. To show its sufficiency and adequacy, a real world example is employed.

info:eu-repo/classification/ddc/004

ddc:004