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Article type: Research Article
Authors: Restrepo, Luisaa | Pardo, Césara; d | Aguilar, Josea; b; c; * | Toro, Mauricioa | Suescún, Elizabetha
Affiliations: [a] GIDITIC Research Group, EAFIT University, Medellín, Colombia | [b] CEMISID, University of the Andes, Mérida, Venezuela | [c] IMDEA Network Institute, Madrid, Spain | [d] GTI Research Group, University of Cauca, Popayán, Cauca
Correspondence: [*] Corresponding author. E-mails: jlaguilarc@eafit.edu.co, aguilar@ula.ve.
Note: [] Accepted by: Paul Johannesson
Abstract: Sustainability in systems refers to applying sustainable principles and practices to create more resilient, efficient, and equitable systems that promote the well-being of people and the planet. Sustainability is an essential topic in contemporary software engineering, and its relationship with the characteristics and properties of a system or product called quality attributes is still an open question since each researcher has established their definition of sustainability in software. This has created diverse terms and concepts for distinct application environments and scopes, creating ambiguity and misconceptions. This work defines a domain ontology of Sustainability in Software named SinSO to address these issues. SinSO was implemented in OWL, using competency-based questions to validate. The findings show that this proposal satisfies several quality and content requirements. Also, using Protégé and the Hermit reasoner, we verified that SinSO is consistent since the ontology statements are coherent and do not lead to conflicting or contradictory conclusions. In addition, competency questions allowed us to demonstrate that SinSO does fulfill its purpose. FOCA methodology allowed us to evaluate SinSO quality. Also, SinSO was used in two case studies, one about software for senior-citizen smart-home, and the other, a simulator to develop and test smart-city applications, achieving positive outcomes. To verify its accuracy, completeness, and maintainability, further evaluations of SinSO are needed in real case studies. We conclude that SinSO can significantly contribute to reducing ambiguity and enhancing comprehension in this area. Furthermore, SinSO can be an effective tool for engineers to recognize the concepts and relationships in the sustainable domain to consider in the systems development life cycle to build sustainable systems.
Keywords: Sustainability, domain ontology, quality attributes, software engineering
DOI: 10.3233/AO-230004
Journal: Applied Ontology, vol. 19, no. 3, pp. 231-263, 2024
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