Oil and Gas Pipeline Design Management System: A Case Study for Domain-Specific Modeling
American Journal of Software Engineering and Applications
Volume 4, Issue 5, October 2015, Pages: 92-98
Received: Jul. 19, 2015;
Accepted: Jul. 29, 2015;
Published: Oct. 19, 2015
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Japheth Bunakiye Richard, Department of Mathematics/Computer Science, Faculty of Science, Niger Delta University, Yenagoa, Nigeria
Asagba Oghenekaro Prince, Department of Computer Science, Faculty of Physical Science and Information Technology, University of Port Harcourt, Port Harcourt, Nigeria
The intent of this paper is to define a common case study for the domain-specific modeling research community. The domain of the case study is oil and gas pipeline design management systems, i.e., systems that help in identifying, handling, and controlling a pipeline design task by coordinating the communication between all component models and dimensions involved in handling the design, by allocating and managing resources, and by providing access to relevant design-related information to domain experts. This document contains general informal requirements for a pipeline design management systems (PDMSs), a feature model for the PDMS product line, and a domain model for the PDMS, as well as an informal physical pipeline model of the PDMS. Domain specific modeling researchers who want to demonstrate the power of their technique can hence apply the approach in other related areas at the most appropriate level of abstraction in the domain of pipeline engineering.
Japheth Bunakiye Richard,
Asagba Oghenekaro Prince,
Oil and Gas Pipeline Design Management System: A Case Study for Domain-Specific Modeling, American Journal of Software Engineering and Applications.
Vol. 4, No. 5,
2015, pp. 92-98.
Autodesk Inc. (2013) AutoCAD Release 2013 Programmers Reference Manual.
Feature-Oriented Domain Analysis (FODA http://www.sei.cmu.edu/reports/90tr021.pdf.
Kienzle J¨org, Nicolas Guelfi, and Sadaf Mustafiz Crisis Management Systems: A Case Study for Aspect-Oriented Modeling Transactions on AOSD VII, LNCS 6210, pp. 1–22, 2010. Springer-Verlag Berlin Heidelberg.
Nayyar, Mohinder L. Piping handbook / [edited by] Mohinder L. Nayyar.—7th ed. p. cm. ISBN 0-07-047106-1 McGraw-Hill 2000.
Zekai Demirezen, Marjan Mernik, Verification of DSMLs Using Graph Transformation: A Case Study with Alloy, MoDeVVa'09, Denver, CO, United States, 2009 ACM 978-1-60558-876-6/09/10.
Assessing Composition in Modeling Approaches Gunter Mussbacher1, Omar Alam2, CMA’12, September 30 2012, Innsbruck, Austria Copyright © 2012 ACM 978-1-4503-1843-3/12/09 …$15.00.
D. Méndez Fernández, D. C. Petriu, N. Rouquette, Ø. Haugen (Eds.): A Meta Model for Artefact-Orientation: Fundamentals and Lessons Learned in Requirements Engineering; MODELS 2010, Part II, LNCS 6395, pp. 183–197, 2010 Springer-Verlag Berlin Heidelberg 2010.
Markus Voelter, Eelco Visser: Product Line Engineering using Domain-Specific Languages Independent, acm.org 2011 15th International Software Product Line Conference 978-0-7695-4487-8/11 2011 IEEE DOI 10.1109/SPLC.2011.25.
Bashar Nuseibeh, Steve Easterbrook: Requirements Engineering: A Roadmap... Department of Computer Science, Imperial College.
Engineering & Piping Design Guide Manual No. E5000, October 1, 2007 National Oil well Varco Company, San Antonio, Texas, http://www.starfiberglass.com.
B. G. Technical LTD - B. G. Technical Oil & Gas industry Port Harcourt, Nigeria. www.bgtechnical.com/Annual Reports 2009 to 2012.
Alessandro NADDEO, Cad Active Models: An Innovative Method in Assembly Environment, Journal of Industrial Design and Engineering Graphics Volume 5 Issue No. 1 – 2010.
Steve Cook, Gareth Jones, and Stuart Kent, (2007) Domain-Specific Development with Visual Studio DSL Tools, Pearson Education, Inc, USA.
Afredo Capozucca, Betty H. C, Cheng, Geri Georg (2013) Requirements definition document for a software product line of car crash management system.