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http://dx.doi.org/10.14248/JKOSSE.2021.17.2.009

A Study on the Design of Sustainability Evaluation Model Applied to Systems Engineering Technical Process : Focused on the Mobile Industry  

Kim, Sang Jin (Dept. of Consulting, Graduate School, Kumoh National Institute of Technology)
Cha, Woo Chang (Dept. of Industrial Engineering, Kumoh National Institute of Technology)
Publication Information
Journal of the Korean Society of Systems Engineering / v.17, no.2, 2021 , pp. 9-22 More about this Journal
Abstract
A study on the sustainability evaluation of the requirements of the mobile industry closely related to the human factor was needed. We conducted the sustainability evaluation of the mobile industry using a quantitative evaluation method with the AHP tool and a qualitative evaluation method reflecting the technological age flow of the philosophical thoughts to improve the reliability of the evaluation results of the model verification. And this evaluation is to evaluate the consistency of the connection between the national sustainability and the mobile industry. In order to draw the conclusion of the relevance, the team member Delphi 5-point scale was used. As a result, the priority was confirmed in the national sustainable development indicator and mobile industry indicator. Quantitative and qualitative evaluation was applied to the discontinued model of mobile to derive insufficient indicators, and it was confirmed that if the indicators were improved and reflected, it would be sustainable. And in order to secure reliability and accuracy, we made a proposal to apply the systems engineering process to the development of the model evaluation field. The systems engineering technology process meets the needs and requirements of stakeholders throughout the lifecycle and it is suitable for the development model of the industry's sustainability assessment.
Keywords
Mobile's Sustainability System; National Sustainability Report; systems engineering Technical Process; Collective Intelligence; Stakeholder's Needs; Reductionism; Structuralism;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 S. J. Kim & W. C. Cha (2020), A Study of Human System Integration Methodology Proposal For the Mobile Industry Sustainability System Evaluation Model Design, Systems Engineering for Korean New Deal (2020 Autumn Symposium), Journal of the Korea Society of Systems Engineering, p130
2 W. C. Cha (2013). A Study of Systems Engineering Process Model For the Cognitive Interface Design Process, Cognitive System, Journal of the Korea Society of Systems Engineering, v9 No2, p15-22   DOI
3 Sustainable Development Goals (2015), the 70th UN General Assembly, UN-SDGs.
4 Heil (2004), Multiple Realization and the Metaphysics of Reduction, Philosophy of Mind : a Guide and anthology, Oxford University Press
5 W. C. Cha & S. P Jang (2004), The Selection of Human factors Evaluation Criteria for Information Display on VDT using AHP, Journal of society of Korea industrial and systems Engineering, v27 no1, p 109-120
6 Systems Engineering Handbook (2018), Acquisition Program Administration
7 W. C. Cha (2010), Anthropometric Data Collection for MCR Environment Design of Nuclear Power Plant, Journal of the Korea Society of Systems Engineering, v6 no1, p47-52
8 S. C. Yoon & S. H. S (2014), Characteristics Analysis of Sustainable Manufacturing System and V&V Strategy, Journal of the Korea Society of Systems Engineering, v10 no2, p51-58   DOI
9 Alex Cazanas, Andre de San Miguel(2017), Estimating Sample Size for Usability Testing, University of Queensland
10 INCOSE (2015). Systems Engineering Handbook, 4th Edition, Edited by T. M. S. David D. Walden, Garry J. Roedler, Kevin J. Forberg, R. Douglas Hamelin, Hoboken, New Jersey
11 Carl W Turner, James R. Lweis, Jakob Nielsen (2006), Determining Usability Test Sample Size, International Encyclopedia of Ergonomics and Human Factors, 2nd Edition, V3
12 Our Common Future Report (1987), World Commission on Environment and Development (WCED)
13 Jakob Nielsen and Thomas K.Landauer (1993), A Mathematical Model of the Finding of Usability Problems, INTERCHI' 93, p24-29
14 B. S. Byun (2020). System Concept Development Methodology for Company Survival, Book Lab p.33-44
15 Waldron, J.S.(1971), The Delphi Process : Some Assumptions and some Realities, AERA
16 LEED (2011) Green Associate Study Guide, GBES, p17
17 National Sustainable Development Goals (2020), 4th Master Plan for Sustainable Development, K-SDGs
18 W. C. Cha (2011), Environment Design for Digitalized Main Control Room in Nuclear Power Plant, Journal of the Korea Society of Systems Engineering, v7 no2, p1-5   DOI
19 Kaeppler, L. Adrience (1985), Structured Movement Systems in Tonga, Paul Spencer(Eds), Society and the Dance, NewYorkL: Cambridge UP
20 W. C. Cha & D. W. Na (2010), System Analysis Study of Public Transit Transfer System, Journal of the Korea Society of Systems Engineering, v6 no2, p15-20
21 S. J. Kim & W. C. Cha (2021), A Study of Human System Integration Methodology For the Mobile Industry Sustainability System Evaluation Model Design, Journal of the Korea Society of Systems Engineering, v17 No1, p43-52   DOI