Exploring Potential Factors in Green and Sustainable Software Product

Komeil Raisian, Jamaiah Yahaya, Aziz Deraman

Abstract


software engineering is a principle role of our activity in social and economic life. Software engineers are starting to comprehend the significance of designing sustainability regarding software processes. The field of sustainable and green software and green software engineering is still young. Thus, in modern society, researches effort is mainly focused on green and sustainable software engineering itself. In other words, the aim of this study at hand aims an in-depth understanding of the related potential factors for the purpose of improving the recently reluctant trend of sustainability dimension in green software based on life cycle of green software product process. To reach this purpose, this study is reviewed latest research and used conceptual model. A conceptual model is rendered demonstrating the consolidated life cycles of sustainable product and principle sustainable measurement dimensions, for example, energy or information efficiency, low cost, Resource efficiency, Waste reduction, Equality support and human health.

Keywords


software engineering; green and sustainable software; sustainable dimension; society; environment; economic

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References


Stefan, D., Letier, E., Barrett, M. and Stella-Sawicki, M., 2011, August. Goal-oriented system modelling for managing environmental sustainability. In 3rd International Workshop on Software Research and Climate Change. Lancaster, United Kingdom.

Raisian, K., Yahaya, J. And Deraman, A., 2016. Current Challenges And Conceptual Model Of Green And Sustainable Software Engineering. Journal of Theoretical and Applied Information Technology, 94(2).

B. Brown, M. Hanson, D. Liverman, and R. Merideth, Global sustainability: Toward de_nition," EnvironmentalManagement, vol. 11, no. 6, pp. pp. 713{719, 1987.

Pettey C. Gartner estimates ICT industry accounts for 2 percent of global CO2 emissions. Dostupno na: https://www. gartner. com/newsroom/id/503867. 2007 Apr 26; 14:2013.

Bozzelli P, Gu Q, Lago P. A systematic literature review on green software metrics. VU University, Amsterdam. 2013.

Betz S, Caporale T. Sustainable Software System Engineering. InBig Data and Cloud Computing (BdCloud), 2014 IEEE Fourth International Conference on 2014 Dec 3 (pp. 612-619). IEEE.

Kern E, Dick M, Naumann S, Filler A. Labelling Sustainable Software Products and Websites: Ideas, Approaches, and Challenges.2015.

Calero C, Piattini M. Green in Software Engineering. Springer; 2015 Apr 3.

Mahmoud SS, Ahmad I. A green model for sustainable software engineering. International Journal of Software Engineering and Its Applications. 2013 Jul;7(4):55-74.

Bener AB, Morisio M, Miranskyy A. Green software. Ieee Software. 2014 May;31(3):36-9.

Dustdar S, Li F, Truong HL, Sehic S, Nastic S, Qanbari S, Vögler M, Claeßens M. Green software services: from requirements to business models. InProceedings of the 2nd International Workshop on Green and Sustainable Software 2013 May 20 (pp. 1-7). IEEE Press.

Penzenstadler B, Bauer V, Calero C, Franch X. Sustainability in software engineering: A systematic literature review. InEvaluation & Assessment in Software Engineering (EASE 2012), 16th International Conference on 2012 May 14 (pp. 32-41). IET

Naumann S, Dick M, Kern E, Johann T. The greensoft model: A reference model for green and sustainable software and its engineering. Sustainable Computing: Informatics and Systems. 2011 Dec 31;1(4):294-304.

Koomey J. Growth in data center electricity use 2005 to 2010. A report by Analytical Press, completed at the request of The New York Times. 2011 Aug 1;9.

Penzenstadler B, Tomlinson B, Richardson D. Re4es: Support environmental sustainability by requirements engineering. InInternational Workshop on Requirements Engineering for Sustainable Systems 2012.

Easterbrook SM. Climate change: a grand software challenge. InProceedings of the FSE/SDP workshop on Future of software engineering research 2010 Nov 7 (pp. 99-104). ACM.

Steigerwald B, Agrawal A. Developing green software. Intel White Paper. 2011.

Murugesan S et al Fostering green IT – guest editors’ introduction. IT Prof 15(1):2013.

Penzenstadler, B. and Femmer, H., 2013, March. A generic model for sustainability with process-and product-specific instances. In Proceedings of the 2013 workshop on Green in/by software engineering (pp. 3-8). ACM.

Johann T, Dick M, Kern E, Naumann S. Sustainable development, sustainable software, and sustainable software engineering: an integrated approach. In2011 International Symposium on Humanities, Science and Engineering Research 2011 Jun 6 (pp. 34-39). IEEE.

Rahman, N. and Akhter, S., 2010. Incorporating sustainability into information technology management. International Journal of Technology Management & Sustainable Development, 9(2), pp.95-111.

Behrendt, S., Scharp, M., Erdmann, L., Kahlenborn, W., Feil, M., Dereje, C., Bleischwitz, R. and Delzeit, R., 2007. Rare metals: measures and concepts for the solution of the problem of conflict-aggravating raw material extraction; the example of coltan.

Taina, J. and Mäkinen, S., 2015. Green Software Quality Factors. In Green in Software Engineering (pp. 129-154). Springer International Publishing.

Al Hinai, M. and Chitchyan, R., 2014. Social sustainability indicators for software: Initial review.

Corbett J. Unearthing the Value of Green IT. InICIS 2010 (Vol. 198).

Fernández H, Procaccianti G, Lago P. Economic aspects of green ICT. InGreen in Software Engineering 2015 (pp. 107-127). Springer International Publishing.

Raturi A, Tomlinson B, Richardson D. Green Software Engineering Environments. InGreen in Software Engineering 2015 (pp. 31-59). Springer International Publishing.

Raisian, K., & Yahaya, J., 2015. A Research Framework for Environmental Quarry System. " 2nd International Research Management & Innovation Conference (IRMIC 2015) LANGKAWI, 26 – 27 AUGUST 2015 rmc.kuis.edu.my/irmic/e-proceedings/e-proceeding-irmic-2015.

Raisian, K., Yahaya, J., Deraman, A., Hamdan, A.R., Rais, I.A.I. and Yahaya, N.Z., 2016. A model for environmental quarry system based on particles, vibration and noise components. Journal of Environmental Management & Tourism, 7(2 (14)), p.185.

Taina J (2011) Good, bad, and beautiful software – in search of green software quality factors. Cepis Upgrade 12(4):22–27

Poppendieck M., 2007. Lean software development. In: Proceedings ICSE COMPANION ’07 Companion to the proceedings of the 29th international conference on software engineering, pp 165–166.

Penzenstadler, B, and Andreas F. "Teach sustainability in software engineering?" In Software Engineering Education and Training (CSEE&T), 2011 24th IEEE-CS Conference on, pp. 454-458. IEEE, 2011.

Raisian, K. and Yahaya, J, 2016. “Security Issues Model on Cloud Computing: A Case of Malaysia” International Journal of Advanced Computer Science and Applications(IJACSA), 6(8), 2015.http://dx.doi.org/10.14569/IJACSA.2015.060829.

Raisian, K., Ibrahim, O. and Nilashi, M., 2013. Customer Trust Model for Malaysian Internet Banking.

Raisian, K., Minouei, A., Khosravi, A., Hashemi, A., Nilashi, M., Ibrahim, O., Zakaria, R. and Nazari, M., 2014. Multi-Criteria Approach for Customer Trust Model in Internet Banking: A Case of UTM CIBM Bank. Life Science Journal, 11(6).




DOI: http://dx.doi.org/10.30630/joiv.2.1.100

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