In this paper, we present a framework for formal modeling and verification of service-based business processes with focus on their compliance to external regulations such as Segregation of Duties (SoD) or privacy protection policies. In our framework, control/data flow is modeled using the exogenous coordination language Reo. Reo process models are designed from scratch or (semi-)automatically obtained from BPMN, UML or WS-BPEL specifications. Constraint automata (CA), a semantic model for Reo, provide state-based representations of process workflows and enable their verification by means of model checking technology. Various extensions of CA make it possible to analyze time-, resource- and Quality-of-Service (QoS) process models
Abstract. Compliance rules describe regulations, policies and quality constraints business processes...
Checking the compliance of a business process execution with respect to a set of regulations is an i...
In the context of Service-Oriented Systems (SOS), services represent loosely coupled discrete units ...
Abstract. In this paper, we present a framework for formal modeling and verification of service-base...
Abstract. The paradigm of service-oriented computing revolutionized the field of software engineerin...
The paradigm of service-oriented computing revolutionized the field of software engineering. Accordi...
Business process modeling and implementation of process supporting infrastructures are two challengi...
The paradigm of service-oriented computing revolutionized the field of software engineering. Accord...
Reo is a graphical channel-based coordination language that enables the modeling of complex behavior...
none2In this paper we extend the preliminary work developed elsewhere and investigate how to charac...
Reo is a graphical channel-based coordination language that enables the modeling of complex behavio...
AbstractThe Reo coordination language is an extensible graphical notation for component or service c...
Based on our previous work on the conformance verification of service compositions, in this paper we...
Business processes design and execution environments increasingly need support from modular services...
We address the existing gap between business process models and lawful states of business objects. T...
Abstract. Compliance rules describe regulations, policies and quality constraints business processes...
Checking the compliance of a business process execution with respect to a set of regulations is an i...
In the context of Service-Oriented Systems (SOS), services represent loosely coupled discrete units ...
Abstract. In this paper, we present a framework for formal modeling and verification of service-base...
Abstract. The paradigm of service-oriented computing revolutionized the field of software engineerin...
The paradigm of service-oriented computing revolutionized the field of software engineering. Accordi...
Business process modeling and implementation of process supporting infrastructures are two challengi...
The paradigm of service-oriented computing revolutionized the field of software engineering. Accord...
Reo is a graphical channel-based coordination language that enables the modeling of complex behavior...
none2In this paper we extend the preliminary work developed elsewhere and investigate how to charac...
Reo is a graphical channel-based coordination language that enables the modeling of complex behavio...
AbstractThe Reo coordination language is an extensible graphical notation for component or service c...
Based on our previous work on the conformance verification of service compositions, in this paper we...
Business processes design and execution environments increasingly need support from modular services...
We address the existing gap between business process models and lawful states of business objects. T...
Abstract. Compliance rules describe regulations, policies and quality constraints business processes...
Checking the compliance of a business process execution with respect to a set of regulations is an i...
In the context of Service-Oriented Systems (SOS), services represent loosely coupled discrete units ...