scholarly journals A Model-Driven engineering approach with diagnosis of non-conformance of security objectives in business process models

2011 ◽  
Author(s):  
A.J. Varela-Vaca ◽  
Rafael M. Gasca ◽  
A. Jimenez-Ramirez
Keyword(s):  
Business Process ◽  
Process Models ◽  
Model Driven Engineering ◽  
Business Process Models ◽  
Model Driven ◽  
Engineering Approach

Compiling Business Process Models into Executable Code

2011 ◽  
pp. 218-337
Author(s):  
Cesare Pautasso
Keyword(s):  
Business Process ◽  
Process Modeling ◽  
Workflow Management ◽  
Workflow Engine ◽  
Process Models ◽  
Management Tool ◽  
Business Process Models ◽  
Model Driven ◽  
Java Bytecode ◽  
High Level

Model-driven architecture (MDA), design and transformation techniques can be applied with success to the domain of business process modeling (BPM) with the goal of making the vision of business-driven development a reality. This chapter is centered on the idea of compiling business process models for executing them, and how this idea has been driving the design of the JOpera for Eclipse workflow management tool. JOpera presents users with a simple, graph-based process modeling language with a visual representation of both control and data-flow aspects. As an intermediate representation, the graphs are converted into Event-Condition-Action rules, which are further compiled into Java bytecode for efficient execution. These transformations of process models are performed by the JOpera process compiler in a completely transparent way, where the generated executable artefacts are kept hidden from users at all times (i.e., even for debugging process executions, which is done by augmenting the original, high level notation). The author evaluates his approach by discussing how using a compiler has opened up the several possibilities for performing optimization on the generated code and also simplified the design the corresponding workflow engine architecture.

scholarly journals Extracting business vocabularies from business process models: SBVR and BPNM standards-based approach

2014 ◽  
Vol 11 (4) ◽  
pp. 1515-1535 ◽  
Author(s):  
Tomas Skersys ◽  
Kestutis Kapocius ◽  
Rimantas Butleris ◽  
Tomas Danikauskas
Keyword(s):  
Information Systems ◽  
Business Process ◽  
Process Model ◽  
Process Management ◽  
Systems Development ◽  
Process Models ◽  
Information Systems Development ◽  
Business Modeling ◽  
Business Process Models ◽  
Model Driven

Approaches for the analysis and specification of business vocabularies and rules are relevant topics in both Business Process Management and Information Systems Development disciplines. However, in common practice of Information Systems Development, the Business modeling activities still are of mostly empiric nature. In this paper, aspects of the approach for semi-automatic extraction of business vocabularies (BV) from business process models (BPM) are presented. The approach is based on novel business modeling-level OMG standards ?Business Process Model and Notation? (BPMN) and ?Semantics for Business Vocabularies and Business Rules? (SBVR), thus contributing to OMG?s vision of Model-Driven Architecture (MDA) and to model-driven development in general. The discussed extraction approach is evaluated against fully-automatic BPMN BPM ? SBVR BV transformation that has been developed in parallel to the presented work.

A Model-Driven Solution for the Automatic Generation of Executable Code from Business Process Models

2014 ◽  
pp. 213-253
Author(s):  
Javier Fabra ◽  
Valeria de Castro ◽  
Verónica Andrea Bollati ◽  
Pedro Álvarez ◽  
Esperanza Marcos
Keyword(s):  
Business Process ◽  
Process Management ◽  
Business Processes ◽  
Automatic Generation ◽  
Process Models ◽  
Business Process Models ◽  
Model Driven ◽  
Business Goals ◽  
Executable Code ◽  
The One

The business goals of an enterprise process are traced to business process models with the aim of being carried out during the execution stage. The automatic translation from these models to fully executable code that can be simulated and round-trip engineered is still an open challenge in the Business Process Management field. Model-driven Engineering has proposed a set of methodologies to solve the existing gap between business analysts and software developers, but the expected results have not been reached yet. In order to rise to this challenge, in this chapter the authors propose a solution based on the integration of three previous proposals: SOD-M, DENEB, and MeTAGeM. On the one hand, SOD-M is a model-driven method for the development of service-oriented systems. Business analysts can use SOD-M to transform their business goals into composition service models, a type of model that represents business processes. On the other hand, DENEB is a platform for the development and execution of flexible business processes, represented by means of workflow models. The authors' approach focuses on the automatic transformation of SOD-M models to DENEB workflow models, resulting in a business process that is coded by a class of high-level Petri-nets, and it is directly executable in DENEB. The model transformation process has been automated using the MeTAGeM tool, which automatically generates the set of ATL rules required to transform SOD-M models to DENEB workflows. Finally, the integration of the three proposals has been illustrated by means of a real system related to the management of medical images.

Applying a Model-Driven Framework for Gap Analysis

2013 ◽  
pp. 115-133
Author(s):  
Valeria de Castro ◽  
Esperanza Marcos ◽  
Juan Manuel Vara ◽  
Willem-Jan van den Heuvel ◽  
Mike Papazoglou
Keyword(s):  
Business Process ◽  
Process Management ◽  
Gap Analysis ◽  
Process Models ◽  
Business Service ◽  
Business Process Models ◽  
Model Driven ◽  
New Business ◽  
Business Functions ◽  
Business Requirements

The objective of business service engineering is the re-use of business process functionalities in new composite applications. To achieve this aim it is necessary to start capturing the existing application portfolio and software resources (i.e. legacy systems, existing enterprise applications, etc) and comparing them to “new” business service functions that need to be provided in a new, redesigned environment. This comparison between new business functions or business requirements (to-be) and current capabilities (as-is) is known in business process management sciences as gap analysis. This chapter presents a model-driven framework for gap analysis that identifies and conceptualizes the processes and services in a business domain by discovering potential overlaps and discrepancies between them. The proposal involves the identification and manipulation of mappings between as-is and standard to-be business process models. The authors describe, by means of a basic implementation, how model-driven techniques can be used to detect intersections and disparities between particular as-is and to-be models.

scholarly journals Evaluation and Lessons Learned from a Campus as a Living Lab Program to Promote Sustainable Practices

2021 ◽  
Vol 13 (4) ◽  
pp. 1739
Author(s):  
Paul Save ◽  
Belgin Terim Cavka ◽  
Thomas Froese
Keyword(s):  
Learning Curve ◽  
Business Process ◽  
Lessons Learned ◽  
Process Models ◽  
Sustainable Practices ◽  
Business Process Models ◽  
District Energy ◽  
University Of British Columbia ◽  
Living Lab ◽  
The University

Any group that creates challenging goals also requires a strategy to achieve them and a process to review and improve this strategy over time. The University of British Columbia (UBC) set ambitious campus sustainability goals, including a reduction in its greenhouse gas emissions to 33% below the 2007 level by 2015, and 100% by 2050 (UBC, 2006). The University pursued these goals through a number of specific projects (such as major district energy upgrade and a bioenergy facility) and, more generally, through a “Campus as a Living Lab” (CLL) initiative to marry industry, campus operations, and research to drive innovative solutions. The CLL program has achieved significant successes while also demonstrating many opportunities for improvements and lessons learned. The aim of this study was to examine the UBC CLL program, to identify and formalize its operations, to extract key transferable characteristics, and to propose replicable processes that other universities and municipalities can follow to expand their sustainable practices in similar ways. There was a learning curve with implementing a CLL program at UBC; thus, the goal of this study was to potentially shorten this learning curve for others. The research involved an ethnographic approach in which researchers participated in the CLL process, conducted qualitative analysis, and captured the processes through a series of business process models. The research findings are shared in two parts: 1. generalized lessons learned through key transferrable characteristics; 2. a series of generic organizational charts and business process models (BPMs) culminated with learned strategies through defined processes that illustrate what was required to create a CLL program at UBC. A generalized future improvement plan for UBC CLL programs is defined, generic BPMs about CLL projects are evaluated, and the level of engagement of multiple stakeholders through phases of project life cycle given in the conclusion for future use of other Living Lab organizations.

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