本研究所定義的場域元素在設計發展過程中，需要具有功能配置的相似性與使用的關聯性的整合設計思路，還需要容易且有效地被人類所使用的能力。單一的以設計者為主導或依靠使用者為中心的設計方法都不足以應對所有的挑戰。因此提出將社會情境、行為場域、時效性與行為反饋納入研究的考慮範圍之中，建構兼顧設計者創造與使用者塑造的「優化設計方法」。在方法的建構過程中首先探討了以設計者創造為主的可適應性的概念與設計度量方法，使用模糊理論改進其算法，並提出一種「模糊可適應性度量」的元素整合設計決策方法；然後，元素的功能需要具備易於且有效地被使用的能力，進而探討以使用者塑造為中心的可用性研究與測試理論，並提出一種結合灰色關聯分析的「田口可用性實驗」的設計參數組合優化方法。為實證所建構方法的合理、可靠與穩健性，以「古厝衛浴間」與「防疫門廳」這兩個行為場域為案例，分別建立兩個場域元素系統，先實施「模糊可適應性度量」，再分別以兩組元素（燈具與毛巾架，換鞋凳與消毒噴劑）為示範實例，進行「田口可用性實驗」與設計參數優化。研究結果展現了場域元素的整合決策以及設計參數的組合優化過程，並表明本研究所提出的優化設計方法可以使元素功能設計過程在可操作性與效用性、創新性發散與演變、功能收斂與聚合等方面的優勢。此外，該方法也是一種將設計者評估與使用者測試的相互協同，通過優化設計的算法促進設計開發的自動化模式，是輔助設計思維與創新的新途徑。不僅可以將方法拓展應用至其他行為場域，還適合應用於設計教學與企業務實的領域。

The field elements defined in this study are not only integrated design ideas with similarity of product function configuration and relevance of use in the design development process but also the ability to be easily and effectively used by humans. However, a single designer-led or user-centered design approach is not sufficient to meet all challenges. Therefore, we propose to incorporate social context, the behavioral field, timeliness, and behavioral feedback into the scope of research, and construct an “optimized design approach” that takes into account both designer creation and user shaping. In the process of constructing the methodology, we first explored the concept of adaptability and design metrics based on designer creation, improved the algorithm using fuzzy theory, and proposed a “Fuzzy Adaptability Measure (FAM)” for element integration design decision-making; then, the functions of elements need to have the ability to be used easily and effectively, and further explored the usability research and testing theory centered on user shaping, and proposed We also propose a method to optimize the combination of design parameters by combining the “Taguchi Usability Experiment (TUE)” with gray correlation analysis. To prove the rationality, reliability, and robustness of the proposed method, two behavioral domains, “ancient residential bathroom” and “epidemic prevention foyer”, were used as case studies to construct two field element systems, first implementing the FAM, and then conducting TUE and design parameter optimization with two sets of elements (lamp and towel rack, shoe changing bench and disinfectant spray) as exemplary examples. The results of the study demonstrate the integration decision of the field elements and the combination optimization process of the design parameters, and show that the optimized design method proposed in this study can enable the advantages of the functional design process of the elements in terms of operability and utility, innovative dispersion and evolution, and functional convergence and aggregation. In addition, the method is an automated model that facilitates design development through the optimization of design algorithms by the mutual synergy of designer evaluation and user testing, which is a new way to assist design thinking and innovation. The method can be extended to other behavioral domains and is also suitable for application in design teaching and corporate practice.

中文文獻
王敏順（1999）。人造環境對使用者行為影響研究方法之探討。建築學報，29，115－132。
王敏順（2001）。環境行為影響理論之評析。中華技術學院學報，22，158－180。
曲藝（2009）。面向包裝機械的可適應設計方法研究（未出版碩士論文）。汕頭大學，汕頭市。
佐藤大（2016）。佐藤大：用設計解決問題（鄧超譯）。北京市：北京時代華文書局。（原著出版於2015）
辛志傑、陳永亮、張大衛、滿佳、劉澤福（2008）。面向數控弧齒銑齒機產品族的可適應動態設計方法。天津大學學報，41（10），1202－1208。
林秀雄（2004）。田口方法實戰技術。深圳市：海天出版社。
畢恒達（1990）。東西的意義與環境轉變。國立台灣大學建築與城鄉研究學報，5，41－56。
高陽、陳常青（2006）。一種基於ELECTRE排序的簡化方法。統計與決策，10，37－39。
陳永亮、褚巍麗、徐燕申（2007）。面向可適應性的參數化產品平臺設計。電腦集成製造系統，13（5），877－884。
陳永亮、滿佳、曲藝、顧佩華（2010）。機械產品可適應性度量方法與應用。工程設計學報，17（1），1－11。doi:10.3785/j.issn.1006-754X.2010.01.001
陳坤宏（1994）。環境規劃與社會。空間雜誌，58，95－106。
傅游磊、梁桂嘉（2018）。宗教空間中休息行為觀察與分析－以臺北行天宮為例。LSHI 2018聯結x共生：文化傳承與設計創新國際學術研討會論文集，487－498。
鄧振源、曾國雄（1989a）。層級分析法（AHP）的內涵特性與代數應用（上）。中國統計學報，27（6），6－22。
鄧振源、曾國雄（1989b）。層級分析法（AHP）的內涵特性與代數應用（下）。中國統計學報，27（7），1－19。
鄧聚龍（2000）。灰色系統理論與應用。臺北：高立圖書公司。
劉正江、吳兆麟（2005）。船舶碰撞事故中人為失誤的灰色識別。大連海事大學學報，31（1），1－5。
劉綺文（2011）。淡水中正路老街行為場域與環境意義。淡江史學，23，295－313。

英文文獻
Abercrombie, S. (1990). A Philosophy Of Interior Design. London, UK: Routledge.
Achuthamenon Sylajakumari, P., Ramakrishnasamy, R., & Palaniappan, G. (2018). Taguchi grey relational analysis for multi-response optimization of wear in co-continuous composite. Materials, 11(9), 1743.
Al-Awar, J., Chapanis, A., and Ford, R. (1981). Tutorials for the first-time computer user. IEEE Transactions on Professional Communication, 24, 30-37.
Allam, A. H., & Dahlan, H. M. (2013). User experience: Challenges and opportunities. Journal of Information Systems Research and Innovation, 3(1), 28-36.
Alturki, R., & Gay, V. (2017). Usability testing of fitness mobile application: methodology and quantitative results.In Natarajan Meghanathan et al. (Eds.), In 7th International Conference on Computer Science (pp. 97-114). ICCSEA, WiMoA, SPPR, GridCom: Engineering & Applications.
Alty, J. L. (1992). Can we measure usability? In Proceedings of Advanced Information Systems (pp. 95106). London, UK: Learned Information.
ANSI. (2001). Common industry format for usability test reports (ANSI-NCITS 354-2001). Washington, DC: American National Standards Institute.
Arciszewski, T. (2018). Morphological analysis in inventive engineering. Technological Forecasting and Social Change, 126, 92-101.
Argyle, M., Furnham, A., & Graham, J. (1981). Social Situations. New York, NY: Cambridge University Press.
Arslanoglu, N., & Yigit, A. (2017). Investigation of efficient parameters on optimum insulation thickness based on theoretical‐Taguchi combined method. Environmental Progress & Sustainable Energy, 36(6), 1824-1831.
Atalay, K. D., & Eraslan, E. (2014). Multi‐criteria usability evaluation of electronic devices in a fuzzy environment. Human Factors and Ergonomics in Manufacturing & Service Industries, 24(3), 336-347.
Athreya, S.; Venkatesh, Y.D. (2012). Application of Taguchi method for optimization of process parameters in improving the surface roughness of lathe facing operation. International journal of engineering science, 1, 13-19.
Baauw, E., Bekker, M. M., & Barendregt, W. (2005, September). A structured expert evaluation method for the evaluation of children’s computer games. In IFIP Conference on Human-Computer Interaction (pp. 457-469). Berlin, Heidelberg: Springer.
Bademlioglu, A. H., Canbolat, A. S., & Kaynakli, O. (2020). Multi-objective optimization of parameters affecting Organic Rankine Cycle performance characteristics with Taguchi-Grey Relational Analysis. Renewable and Sustainable Energy Reviews, 117, 109483.
Bademlioglu, A.H., Canbolat, A.S., Yamankaradeniz, N., Kaynakli, O., (2018). Investigation of parameters affecting Organic Rankine Cycle efficiency by using Taguchi and ANOVA methods. Applied Thermal Engineering, 145, 221-228. https://doi.org/10.1016/j.applthermaleng.2018.09.032.
Baggili, I. M., Chang, K., & Lutes, K. D. (2006). Diabetic e-management system (DEMS). Third International Conference on Information Technology: New Generations (ITNG’06) (pp. 619–624). IEEE.
Bailey, G. (1993). Iterative methodology and designer training in human-computer interface design. In INTERCHI’93 Conference Proceedings (pp. 198-205). New York, NY: ACM Press.
Bailey, R. W., Allan, R. W., & Raiello, P. (1992). Usability testing vs. heuristic evaluation: A head to head comparison. In Proceedings of the Human Factors and Ergonomics Society 36th Annual Meeting (pp. 409-413). Atlanta, GA: Human Factors and Ergonomics Society.
Bangor, A., Kortum, P., & Miller, J. (2008). Determining what individual SUS scores mean: Adding an adjective rating scale. Journal of Usability Studies, 4(3), 114-123. http://uxpajournal.org/determining-what-individual-sus-scores-mean-adding-anadjective-rating-scale/
Bark, I., Følstad, A., & Gulliksen, J. (2006). Use and usefulness of HCI methods: results from an exploratory study among Nordic HCI practitioners. In People and Computers XIX-The Bigger Picture (pp. 201-217). London: Springer.
Barker, R. G. (1968). Ecological psychology. Standford USA: Standford University Press.
Barrett, J. D. (2007). Taguchi’s quality engineering handbook.Taylor & Francis.
Beleza, C. M. F., & Soares, S. M. (2019). The conception of aging based on Kurt Lewin's psychological field theory and group dynamics/A concepcao de envelhecimento com base na teoria de campo de Kurt Lewin e a dinamica de grupos. Ciência & Saúde Coletiva, 24(8), 3141-3147.
Bella, M., & Hanington, B. (2012). Universal methods of design. Beverly, MA: Rockport Publishers.
Bennett, J. L. (1979). The commercial impact of usability in interactive systems. Infotech State of the Art Report: Man/Computer Communication, 2, 289-297.
Bevan, N. (1995a). Usability is quality of use. In Anzai, Ogawa (Eds.), Proceedings of the Sixth International Conference on Human Computer Interaction (Vol. 20, pp. 349-354). Amsterdam: Elsevier.
Bevan, N. (1995b). Measuring Usability As Quality of Use. Software Quality Journal, 4, 115-150.
Bevan, N., Kirakowski, J., & Maissel, J. (1991). What is usability? In H. J. Bullinger (Ed.), Human Aspects in Computing, Design and Use of Interactive Systems and Work with Terminals, Proceedings of the Fourth International Conference on Human Computer Interaction (pp. 651-655). Stuttgart, Germany: Elsevier Science Publishers.
Black, A., & Murata, N. (2005). The Japanese house: Architecture and interiors. Great Britain: Scriptum Editions.
Bonfim, G., Medola, F., & Paschoarelli, L. (2017a). Usability in the development of packaging design: Complementing the subjective evaluation. In Advances in ergonomics modeling, usability & special populations (pp. 67-74). Cham: Springer.
Bonfim, G., Medola, F., & Paschoarelli, L. (2017b). Development and evaluation of packaging prototypes in a teaching context of ergonomic design: a didactic experience. In Advances in Ergonomics Modeling, Usability & Special Populations (pp. 59-66). Cham: Springer.
Boothroyd, G. (1994). Product design for manufacture and assembly. Computer-Aided Design, 26(7), 505-520.
Borsci, S., Federici, S., Bacci, S., Gnaldi, M., & Bartolucci, F. (2015). Assessing user satisfaction in the era of user experience: comparison of the SUS, UMUX, and UMUX-LITE as a function of product experience. International Journal of Human-Computer Interaction, 31(8), 484-495.
Bose, T. K. (2012). Application of fishbone analysis for evaluating supply chain and business process-a case study on the St James Hospital. International Journal of Managing Value and Supply Chains (IJMVSC), 3(2), 17-24.
Bradley, R. A. (1976). Science, statistics, and paired comparisons. Biometrics, 32(2), 213-239.
Brainerd, C. J., & Reyna, V. F. (2005). The science of false memory. Oxford, UK: Oxford University Press.
Brooke, J. (1996). SUS-A quick and dirty usability scale. Usability evaluation in industry, 189(194), 4-7.
Brooke, J. (2013). SUS: a retrospective. Journal of Usability Studies, 8(2), 29-40.
Buckley, J. J. (1985). Fuzzy Hierarchical Analysis. Fuzzy Sets and systems, 17(3), 233-247.
Bulsuk, K. G. (2009). An introduction to 5-why. Karn Bulsuk: Full Speed Ahead.
Burhan, A. M., Altaie, M. R., & Al-Kubaisi, O. K. (2018). Determining the Causes of Punching Shear in Reinforced Slabs Using Fishbone Diagram. Civil Engineering Journal, 4(11), 2642-2651.
Burnes, B., & Cooke, B. (2013). Kurt Lewin’s field theory: A review and re-evaluation. International Journal of Management Reviews, 15(4), 408-425.
Canbolat, A. S., Bademlioglu, A. H., Arslanoglu, N., & Kaynakli, O. (2019). Performance optimization of absorption refrigeration systems using Taguchi, ANOVA and Grey Relational Analysis methods. Journal of Cleaner Production, 229, 874-885.
Canbolat, A. S., Bademlioglu, A. H., Arslanoglu, N., & Kaynakli, O. (2019). Performance optimization of absorption refrigeration systems using Taguchi, ANOVA and Grey Relational Analysis methods. Journal of Cleaner Production, 229, 874-885.
Celik, N., Pusat, G., & Turgut, E. (2018). Application of Taguchi method and grey relational analysis on a turbulated heat exchanger. International Journal of Thermal Sciences, 124, 85-97.
Chandourene, S.; Gruss, A. (1987). Theoretical and experimental study of high temperature heat pipe heat exchanger application to 1300kW respirator. In Proceedings of the Sixth International Heat Pipe Conference. Grenoble, France.
Chang, C.S. (2014). Multi‐level grey relation comprehensive evaluation method for universal design. Journal of Grey System, 17(4), 229-237.
Chang, E., & Dillon, T. S. (2006). A usability-evaluation metric based on a soft-computing approach. IEEE Transactions on Systems, Man, and Cybernetics-Part A: Systems and Humans, 36(2), 356-372.
Chapanis, A. (1981). Evaluating ease of use. In Proceedings of IBM Software and Information Usability Symposium. Poughkeepsie (pp. 105-120). NY: IBM.
Chapanis, A. (1988). Some generalizations about generalization. Human Factors, 30, 253-267.
Chechurin, L., & Borgianni, Y. (2016). Understanding TRIZ through the review of top cited publications. Computers in Industry, 82, 119-134.
Chen, H. C., TU, J. C., & Guang, S. S. (2016). Research on application of taguchi method into optimal green kansei form design. Bulletin of Japanese Society for the Science of Design, 62(5), 5_21-5_30.
Chen, Y., Peng, Q., & Gu, P. (2018). Methods and tools for the optimal adaptable design of open-architecture products. The international journal of advanced manufacturing technology, 94(1-4), 991-1008.
Cho, J. (2018, April). Mental models and home virtual assistants (HVAs). In Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems (pp. 1-6). New York, NY: ACM Press.
Clark, M., Newman, M. W., & Dutta, P. (2017). Devices and data and agents, oh my: How smart home abstractions prime end-user mental models. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies, 1(3), 1-26.
Cliff, N. (1987). Analyzing multivariate data. San Diego: CA: Harcourt Brace Jovanovich.
Davidson, C. N. (1994). Tatami Room. Eloquent obsessions: writing cultural criticism, Torgovnick, M. Ed., Durham, North Carolina, US: Duke University Press.
De Jong, M., & Lentz, L. (2006). Scenario evaluation of municipal Web sites: Development and use of an expert-focused evaluation tool. Government Information Quarterly, 23(2), 191-206.
Deepanraj, B., Sivasubramanian, V., & Jayaraj, S. (2017). Multi-response optimization of process parameters in biogas production from food waste using Taguchi–Grey relational analysis. Energy Conversion and Management, 141, 429-438.
Deepanraj, B., Sivasubramanian, V., & Jayaraj, S. (2017). Multi-response optimization of process parameters in biogas production from food waste using Taguchi–Grey relational analysis. Energy Conversion and Management, 141, 429-438.
Delgado, M., Herrera, F., Herrera-Viedma, E., & Martinez, L. (1998). Combining numerical and linguistic information in-group decision-making. Journal of information science,107, 177-194.
Deng, J. L. (1989). Introduction to grey system theory. The Journal of Grey System, 1(1), 1-24.
Desurvire, H. W., Kondziela, J. M., & Atwood, M. E. (1992). What is gained and lost when using evaluation methods other than empirical testing. In A. Monk, D. Diaper, & M. D. Harrison (Eds.), Proceedings of HCI’92: People and Computers VII (pp. 89-102). York, UK: Cambridge University Press.
Devy, N. P. I. R., Wibirama, S., & Santosa, P. I. (2017). Evaluating user experience of english learning interface using user experience questionnaire and system usability scale. In 2017 1st International Conference on Informatics and Computational Sciences (ICICoS) (pp. 101-106). IEEE.
Don-Son, W. (2014). On Park Kil-ryong’s Discovering, Understanding, and Designing of Korean Architecture. Constructing the Colonized Land: Entwined Perspectives of East Asia around WWII, Izumi Kuroishi, Ed., Hampshire, UK: Ashgate.
Douglas, J.(2002). Building Adaptation. Oxford, England: Butterworth Heinemann.
Du, X., Jiao, J., & Tseng, M. M. (2001). Architecture of product family: fundamentals and methodology. Concurrent Engineering, 9(4), 309-325.
Dubey, S. K., & Rana, A. (2010). Analytical roadmap to usability definitions and decompositions. International Journal of Engineering Science and Technology, 2(9), 4723-4729.
Dubey, S. K., Mittal, A., & Rana, A. (2012b). Measurement of object oriented software usability using fuzzy AHP. International Journal of Computer Science and Telecommunications, 3(5), 98-104.
Dubey, S. K., Rana, A., & Sharma, A. (2012a). Usability evaluation of object oriented software system using fuzzy logic approach. International Journal of Computer Applications, 43(19), 1-6.
Dumas, J., & Redish, J. C. (1999). A practical guide to usability testing. Portland, OR: Intellect.
Dumas, J.S., & Redish, J.C., (1994). A Practical Guide to Usability Testing. Ablex, Norwood, NJ: Revised Edition. Oregon.
Dyer, R. F., & Forman, E. H. (1992). Group decision support with the analytic hierarchy process. Decision Support Systems, 8, 199-124.
e Souza, P. G. D. S., & Canedo, E. D. (2018). Improving Usability Evaluation by Automating a Standardized Usability Questionnaire. In International Conference of Design, User Experience, and Usability (pp. 379-395). Springer, Cham.
Efimenko, A., Zlobin, I., Avilov, A., & Markov, A. (2019). Application of expert evaluation method for realization of tasks in construction industry. In E3S Web of Conferences (Vol. 91, p. 08034). France, Les Ulis: EDP Sciences.
Ependi, U., Panjaitan, F., & Hutrianto, H. (2017). System Usability Scale Antarmuka Palembang Guide Sebagai Media Pendukung Asian Games XVIII. Journal of Information Systems Engineering and Business Intelligence, 3(2), 80-86.
Ferretti, V., Bottero, M., & Mondini, G. (2014). Decision making and cultural heritage: An application of the Multi-Attribute Value Theory for the reuse of historical buildings. Journal of cultural heritage, 15(6), 644–655.
Findiani, R. (2019). Improvement of rHDPE plastic quality using six sigma and taguchi methods. Journal of Engineering and Management in Industrial System, 7(2), 77-89.
Flavián, C., Guinalíu, M., & Gurrea, R. (2006). The role played by perceived usability, satisfaction and consumer trust on website loyalty. Information & management, 43(1), 1-14.
Foschi, R., & Lombardo, G. P. (2006). Lewinian contribution to the study of personality as the alternative to the mainstream of personality psychology in the 20th Century. In J. Trempata et al. (Eds.), Lewinian Psychology. Proceedings of the International Conference “Kurt Lewin: Contribution to Contemporary Psychology” Bydgoszcz, Poland: Kazimierz Wielky University Press. 86-98.
Friesen, E. L., Theodoros, D., & Russell, T. G. (2015). Usability-for-one. Work, 52(1), 211-213.
Frøkjær, E., Hertzum, M., & Hornbæk, K. (2000). Measuring usability: are effectiveness, efficiency, and satisfaction really correlated?. In Proceedings of the SIGCHI conference on Human Factors in Computing Systems (pp. 345-352). New York, NY: Association for Computing Machinery.
Fu, Y. L., & Liang, K. C. (2020). Fuzzy logic programming and adaptable design of medical products for the COVID-19 anti-epidemic normalization. Computer methods and programs in biomedicine, 197, 105762.
Fu, Y. L., Liang, K. C., Song, W., & Huang, J. (2022). A hybrid approach to product prototype usability testing based on surface EMG images and convolutional neural network classification. Computer methods and programs in biomedicine, 221, 106870.
Furlough, C. S., & Gillan, D. J. (2018). Mental models: structural differences and the role of experience. Journal of Cognitive Engineering and Decision Making, 12(4), 269-287.
Gao, M. (2017). Measuring the usability of home healthcare devices (unpublished master’s thesis). Rice University, Houston, TX, USA. https://psychology.rice.edu/thesesdissertations
Gao, M., & Kortum, P. (2017). Measuring the usability of home healthcare devices using retrospective measures. In Proceedings of the Human Factors and Ergonomics Society Annual Meeting (pp. 1281-1285). Sage CA: Los Angeles, CA: SAGE Publications.
Gao, M., Kortum, P., & Oswald, F. L. (2020). Multi-language toolkit for the system usability scale. International Journal of Human - Computer Interaction, 36(20), 1883-1901.
Goddard, S. T. (1983). Ranking in Tournaments and Group Decisionmaking. Management science, 29(12), 1384-1392.
Gould, J. D., Boies, S. J., & Lewis, C. (1991). Making usable, useful, productivity-enhancing computer applications. Communications of the ACM, 34(1), 74-85.
Graumann, C. F. (1974). Psychology and the world of things. Journal of Phenomenological Psychology, 4(2), 389-404.
Gray, W. D., & Salzman, M. C. (1998). Damaged merchandise? A review of experiments that compare usability evaluation methods. Human-Computer Interaction, 13, 203-261.
Gu, P. H., Xue, D. Y., & Chen, Y. L. (2011). General adaptable product design. In Global Product Development (pp. 27-40). Springer, Berlin, Heidelberg.
Gu, P., Hashemian, M., & Nee, A. Y. C. (2004). Adaptable Design. CIRP Annals Manufacturing technology, 53(2), 539-557. doi:10.1016/S0007-8506(07)60028-6.
Gu, P., Rao, H. A., & Tseng, M. M. (2001). Systematic design of manufacturing systems based on axiomatic design approach. CIRP Annals, 50(1), 299-304.
Gu, P., Xue, D., & Nee, A. Y. C. (2009). Adaptable Design: Concepts, Methods and Applications. Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering, 223(11), 1367-1387.
Gulliksen, J., Boivie, I., Persson, J., Hektor, A., & Herulf, I. (2004). Making a difference - a survey of usability profession in Sweden. In Proceedings of NordiCHI (pp. 207–215). New York, NY: ACM Press.
Guru, S., & Mahalik, D. K. (2019). A comparative study on performance measurement of Indian public sector banks using AHP-TOPSIS and AHP-grey relational analysis. Opsearch, 56(4), 1213-1239.
Haldaman, J., & Parkinson, M. B. (2010, January). Reconfigurable products and their means of reconfiguration. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference ( pp. 219-228). Las Vegas, Nevada.
Hall, E. T. (1966). The Hidden Dimension. Garden City, NY: Doubleday.
Halliwell, J., & Shen, Q. (2009). Linguistic probabilities: theory and application. Soft Computing, 13, 169-183.
Han, S. H., & Kim, J. (2003). A comparison of screening methods: selecting important design variables for modeling product usability. International Journal of Industrial Ergonomics, 32(3), 189-198.
Han, S. H., Yun, M. H., Kim, K. J., & Kwahk, J. (2000). Evaluation of product usability: development and validation of usability dimensions and design elements based on empirical models. International Journal of Industrial Ergonomics, 26(4), 477-488.
Han, S. H., Yun, M. H., Kwahk, J., & Hong, S. W. (2001). Usability of consumer electronic products. International Journal of Industrial Ergonomics, 28(3-4), 143-151.
Harrison, R., Flood, D., & Duce, D. (2013). Usability of mobile applications: literature review and rationale for a new usability model. Journal of Interaction Science, 1(1), 1-16.
Harun, S. N.(2011). Heritage building conservation in Malaysia: Experience and challenges. Procedia Engineering, 20, 41-53.
Hass, C. (2019). A practical guide to usability testing. In Consumer Informatics and Digital Health (pp. 107-124). Cham:Springer.
Hass, C., & Edmunds, M. (2019). Understanding Usability and Human-Centered Design Principles. In Consumer Informatics and Digital Health (pp. 89-105). Cham: Springer.
Hassenzahl, M., & Tractinsky, N. (2006). User Experience-a research agenda. Behavior & Information Technology, 25(2), 91-97.
Hassenzahl, M., Platz, A., Burmester, M., Lehner, K., 2000. Hedonic and ergonomic quality aspects determine a software’s appeal. In: Proceedings of ACM Conference on Human Factors in Computing Systems (pp. 201-208). New York, NY: ACM Press .
Heft, H. (2001). Ecological psychology in context: James Gibson, Roger Barker, and the legacy of William James’s radical empiricism. London, UK: Psychology Press.
Henderson, R. D., & Dutta, S. P. (1992). Use of the analytical hierarchy process in ergonomic analysis. International Journal of Industrial Ergonomics, 9, 275-282.
Hillier, B. (2007). Space is the machine: a configurational theory of architecture. Cambridge, UK: Cambridge University Press.
Hines, W. G. S. (1996). Pragmatics of pooling in ANOVA tables. The American Statistician, 50(2), 127-139.
Hornbæk , K., & Law, E. (2007). Meta-analysis of correlations among usability measures. In Proceedings of CHI 2007 (pp. 617-626). San Jose, CA: ACM.
Hornbæk, K. (2006). Current practice in measuring usability: Challenges to usability studies and research. International journal of human-computer studies, 64(2), 79-102.
Hornbæk, K., & Frøkjær, E. (2001). Reading electronic documents: the usability of linear, Fisheye, and overview+detail interfaces. In Proceedings of ACM Conference on Human Factors in Computing Systems (pp. 293-300). New York, NY: ACM Press.
Hsiao, S.W., Chiu, F.Y., & Lu, S.H. (2010). Product‐form design model based on genetic algorithms. International Journal of Industrial Ergonomics, 40(3), 237-246.
Hsiao, Y. F., Tarng, Y. S., & Huang, W. J. (2008). Optimization of plasma arc welding parameters by using the Taguchi method with the grey relational analysis. Materials and Manufacturing Processes, 23(1), 51–58.
Hu, X. (2008). Boundaries and openings: spatial strategies in the Chinese dwelling. Journal of Housing and the Built Environment, 23(4), 353-366.
Huang, H. C., Xu, S. S. D., & Wu, C. H. (2016). A hybrid swarm intelligence of artificial immune system tuned with Taguchi-genetic algorithm and its field-programmable gate array realization to optimal inverse kinematics for an articulated industrial robotic manipulator. Advances in Mechanical Engineering, 8(1), 1687814015626380.
Huang, Y., Shen, L., & Liu, H. (2019). Grey relational analysis, principal component analysis and forecasting of carbon emissions based on long short-term memory in China. Journal of Cleaner Production, 209, 415-423.
Hubbard, D. (2007). How to measure anything: Finding the value of intangibles in business. New York, NY: John Wiley & Sons.
Hwang, W., & Salvendy, G. (2010). Number of people required for usability evaluation: the 10±2 rule. Communications of the ACM, 53(5), 130-133.
ISO. (1998). Ergonomic requirements for office work with visual display terminals (VDTs) - Part 11: Guidance on usability (ISO 9241-11:1998(E)). Geneva, Switzerland: Author.
ISO/IEC 9126-1. (2001). Software engineering- product quality - part 1: Quality model. International Organization for Standardization.
Ittelson, W. H., Proshansky, H. M., Rivlin, L. G., & Winkel, G. H. (1974). An introduction to environmental psychology. Holt: Rinehart & Winston.
Ittelson, W., Proshansky, H., Rivlin, L., & Winkel, G. (1974). An introduction to environmental psychology. New York, NY: Holt, Rinehart and Winston.
Jacobsen, N. E., Hertzum, M., & John, B. E. (1998). The evaluator effect in usability studies: Problem detection and severity judgments. In Proceedings of the Human Factors and Ergonomics Society Annual Meeting (Vol. 42, No. 19, pp. 1336-1340). Sage CA: Los Angeles, CA: SAGE Publications.http://dx.doi.org/10.1177/154193129804201902
Jerome, P.(2008). An introduction to authenticity in preservation. APT Bulletin, 39(2-3), 3-7.
Johnson, H. D. (1995). Green plans: Greenprint for sustainability. Lincoln, NE: University of Nebraska Press.
Jones, J. C. (1992). Design methods. New York, NY: John Wiley & Sons.
Kackar, R. N. (1986). Taguchi’s quality philosophy: Analysis and commentary. Quality Progress, 19(12), 21-29.
Kackar, R. N., & Shoemaker, A. C. (1986). Robust design: A cost-effective method for improving manufacturing processes. AT&T Technical Journal, 65(2), 39-50.
Kacprzyk, J. (1986). Fuzzy Sets in System Analysis (in Polish) PWN. Warszawa, Poland: Panstwowe´ Wydawnictwo Naukowe.
Kantner, L., & Rosenbaum, S. (1997). Usability studies of WWW sites: Heuristic evaluation vs. laboratory testing. Proceedings SIGDOC Conference 1997 (pp. 153–160). Utah: Snowbird.
Kantner, L., & Rosenbaum, S. (1997, October). Usability studies of WWW sites: Heuristic evaluation vs. laboratory testing. In Proceedings of the 15th annual international conference on Computer documentation (pp. 153-160).
Karna, S. K., & Sahai, R. (2012). An overview on Taguchi method. International Journal of Engineering and Mathematical Sciences, 1(1), 1-7.
Karna, S. K., Singh, R. V., & Sahai, R. (2012). Application of Taguchi method in indian industry. International Journal of Emerging Technology and Advanced engineering, 2(11), 387-391.
Kaufmann, A., & Gupta, M. M. (1991). Introduction to fuzzy arithmetic: Theory and applications. New York, NY: Van Nostrand Reinhold.
Kelley, J. F. (1984). An iterative design methodology for user-friendly natural language office information applications. ACM Transactions on Information Systems, 2, 26-41.
Kelley, J. F. (1985). CAL - A natural language program developed with the OZ Paradigm: Implications for supercomputing systems. In the First International Conference on Supercomputing Systems (pp. 238-248). New York, NY: ACM Press.
Kernot, J., Olds, T., Lewis, L. K., & Maher, C. (2014). UsabilityTesting and Piloting of the Mums Step It Up ProgramA Team-Based Social Networking Physical Activity Intervention for Women with Young Children. PloS One , 9(10), e108842.
Ketola, P., & Roto, V. (2008). Exploring user experience measurement needs. In Proceedings of the International Workshop on Meaningful Measures: Valid Useful User Experience Measurement (VUUM) (pp. 23-26). Reykjavik, Island.
Kidd, P. S., & Parshall, M. B. (2000). Getting the focus and the group: enhancing analytical rigor in focus group research. Qualitative Health Research, 10(3), 293-308.
Kirschman, C. F., & Fadel, G. M. (1998). Classifying functions for mechanical design. Journal of Mechanical Design, 120(3), 475-482.
Klir, G. J., & Yuan, B. (1995). Fuzzy sets and fuzzy logic theory and applications. Upper Saddle River, NJ: Prentice-Hall International Inc.
Knapp, R. G. (1999). China’s old dwellings. Honolulu, US: University of Hawaii Press.
Kohler, N., & HassleR, U. (2002). The building stock as a research object. Building research and information, 30(4), 226-236.
Kortum, P. T., & Bangor, A. (2013). Usability ratings for everyday products measures with the System Usability Scale (SUS). International Journal of Human Computer Interaction, 29, 67-76. http://dx.doi.org/10.1080/10447318.2012.681221
Kortum, P., & Neal, T. (2014). How accurate are prospective usability judgments?. In 2014 Southwest Regional Human Factors & Ergonomics Society Symposium, College Station, TX.
Kortum, P., & Peres, S. C. (2014). The relationship between system effectiveness and subjective usability scores using the System Usability Scale. International Journal of Human-Computer Interaction, 30(7), 575-584.
Kortum, P., & Sorber, M. (2015). Measuring the usability of mobile applications for phones and tablets. International Journal of Human-Computer Interaction, 31, 518–529.
Krueger, R. A., & Casey, M. A. (2000). Focus Groups: A Practical Guide for Applied Research. Thousand Oaks, CA: Sage Publications.
Kuhnel, M., Seiler, L., Honal, A., & Ifenthaler, D. (2018). Mobile learning analytics in higher education: Usability testing and evaluation of an app prototype. Interactive Technology and Smart Education, 15(4), 332-347. https://doi.org/10.1108/ITSE-04-2018-0024
Kuhr, R., Wood, K., Jensen, D., & Crawford, R. (2010, January). Concept opportunity diagrams: a visual modeling method to find multifunctional design concepts. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Vol. 44090, pp. 193-205). Quebec, Canada, August: Montreal.
Kumar, R. S., Sureshkumar, K., & Velraj, R. (2015). Optimization of biodiesel production from Manilkara zapota (L.) seed oil using Taguchi method. Fuel, 140, 90-96.
Kuo, M. S., Liang, G. S., & Huang, W. C. (2006). Extensions of the multicriteria analysis with pairwise comparison under a fuzzy environment. International Journal of Approximate Reasoning, 43(3), 268-285.
Kutut, V., Zavadskas, E. K., & Lazauskas, M. (2014). Assessment of priority alternatives for preservation of historic buildings using model based on ARAS and AHP methods. Archives of civil and mechanical engineering, 14, 287–294.
Landauer, T. K. (1997). Behavioral research methods in human-computer interaction. In M. Helander, T. K. Landauer, & P. Prabhu (Eds.), Handbook of Human-Computer Interaction (pp. 203-227). Amsterdam, Netherlands: North Holland.
Law Insider (n.d.). Habitable space definition. Law Insider. https://www.lawinsider.com/dictionary/habitable-space
Lawrence, R. J. (1984). Transition spaces and dwelling design. Journal of Architectural Planning and Research, 1, 261-271.
Leupen, B. (2006). Polyvalence, a concept for the sustainable dwelling. Nordic journal of architectural research, 19(3), 23-31.
Leupen, B. (2006). Polyvalence, a concept for the sustainable dwelling. Nordic journal of architectural research, 19(3), 23-31.
Lewin, K. (1951). Field theory in social science. New York, NY: Harper and Row.
Lewis, J. J. R., & Sauro, J. (2017). Revisiting the Factor Structure of the System Usability Scale. Journal of Usability Studies, 12(4), 183-192.
Lewis, J. R. (1982). Testing small system customer set-up. In Proceedings of the Human Factors Society 26th Annual Meeting (pp. 718-720). Santa Monica, CA: Human Factors Society.
Lewis, J. R. (1991a). A rank-based method for the usability comparison of competing products. In Proceedings of the Human Factors Society 35th Annual Meeting (pp. 1312-1316). San Francisco, CA: Human Factors Society.
Lewis, J. R. (1991b). Psychometric evaluation of an after-scenario questionnaire for computer usability studies: the ASQ. ACM Sigchi Bulletin, 23(1), 78-81.
Lewis, J. R. (1992). Psychometric evaluation of the post-study system usability questionnaire: The PSSUQ. In Proceedings of the human factors society annual meeting (pp. 1259-1260). Sage CA: Los Angeles, CA: Sage Publications.
Lewis, J. R. (1995). Psychometric evaluation of an after-scenario questionnaire for computer usability studies: The ASQ. ACM SIGCHI Bulletin, 23(1), 78-81. http://dx.doi.org/10.1145/122672.122692
Lewis, J. R. (1996b). Reaping the benefits of modern usability evaluation: The Simon story. In G. Salvendy and A. Ozok (eds.), Advances in Applied Ergonomics: Proceedings of the 1st International Conference on Applied Ergonomics -- ICAE’96 (pp. 752-757). Istanbul, Turkey: USA Publishing.
Lewis, J. R. (2006). Usability testing. Handbook of human factors and ergonomics, 12, e30.
Lewis, J. R., & Sauro, J. (2009). The factor structure of the System Usability Scale. Proceedings of the 1st International Conference on Human Centered Design: Held as Part of HCI International 2009 (pp. 94-103). San Diego, CA: HCI International.
Lewis, J. R., Brown, J., & Mayes, D. K. (2015a). Psychometric evaluation of the EMO and the SUS in the context of a large-sample unmoderated usability study. International Journal of Human-Computer Interaction, 31(8), 545–553.
Lewis, J. R., Utesch, B. S., & Maher, D. E. (2013). UMUX-LITE - When there’s no time for the SUS. In Proceedings of CHI 2013 (pp. 2099-2102). Paris, France: ACM Press.
Lewis, J. R., Utesch, B. S., & Maher, D. E. (2015b). Measuring perceived usability: The SUS, UMUX-LITE, and AltUsability. International Journal of Human-Computer Interaction, 31(8), 496-505.
Lewis, K., & Kalyanasundaram, V. (2011). A function based approach for product integration. Journal of Mechanical Design, 136(4), 263-279.
Li, T., Wang, Z., & Liu, J. (2020). Evaluation method for impact of jamming on radar based on expert knowledge and data mining. IET Radar, Sonar & Navigation, 14(9), 1441-1450.
Li, X., Wang, Z., Zhang, L., Zou, C., & Dorrell, D. D. (2019). State-of-health estimation for Li-ion batteries by combing the incremental capacity analysis method with grey relational analysis. Journal of Power Sources, 410, 106-114.
Li, Y., & Zhu, L. (2017). Optimisation of product form design using fuzzy integral-based Taguchi method. Journal of Engineering Design, 28(7-9), 480-504.
Li, Y., & Zhu, L. (2019). Optimization of user experience in interaction design through a Taguchi‐based hybrid approach. Human Factors and Ergonomics in Manufacturing & Service Industries, 29(2), 126-140.
Li, Y., & Zhu, L. (2019). Optimization of user experience in mobile application design by using a fuzzy analytic-network-process-based Taguchi method. Applied Soft Computing, 79, 268-282.
Lidwell, W., Holden, K., & Butler, J. (2010). Universal principles of design, revised and updated: 125 ways to enhance usability, influence perception, increase appeal, make better design decisions, and teach through design. US: Rockport Pub.
Liliana, L. (2016, November). A new model of Ishikawa diagram for quality assessment. In IOP Conference Series: Materials Science and Engineering (p. 012099). Bristol, UK: IOP Publishing.
Lin, Y. (1938). The wisdom of confucius. New York, USA: The Modern Library.
Lindorfer, B. (2021). Personality theory in gestalt theoretical psychotherapy: Kurt Lewin’s field theory and his theory of systems in tension revisited. Gestalt Theory, 43(1), 29-46.
Ling, C., & Salvendy, G. (2007). Optimizing heuristic evaluation process in E-commerce: Use of the Taguchi method. International Journal of Human-Computer Interaction, 22(3), 271-287.
Lipsey, M. W., Kraemer, H. C., & Thiemann, S. (1987). How Many Subjects?: Statistical Power Analysis in Research. Beverly, Hills, CA:Sage.
Liu, S. F., Forrest, J., & Yang, Y. J. (2012). A brief introduction to grey systems theory. Grey Systems: Theory and Application, 2(2), 89-104.
Longo, L. (2017). Subjective usability, mental workload assessments and their impact on objective human performance. In IFIP Conference on Human-Computer Interaction (pp. 202-223). Springer, Cham.
Lower, M., Magott, J., & Skorupski, J. (2016). Analysis of Air Traffic Incidents using Event Trees with Fuzzy Probabilities. Fuzzy Sets and systems, 293, 50-79.
Luca, L., Pasare, M., & Stancioiu, A. (2017). Study to determine a new model of the Ishikawa diagram for quality improvement. Fiability & durability, 1, 249-254.
Lucker, G. W., Beane, W. E., & Guire, K. (1981). The idiographic approach to physical attractiveness research. Journal of Psychology, 107, 57-67.
Luo, T., Wu, C., & Duan, L. (2018). Fishbone diagram and risk matrix analysis method and its application in safety assessment of natural gas spherical tank. Journal of Cleaner Production, 174, 296-304.
MacDorman, K. F., Whalen, T. J., Ho, C., & Patel, H. (2011). An improved usability measure based on novice and expert performance. International Journal of Human-Computer Interaction, 27, 280-302.
Mack, R. L., & Nielsen, J. (1995). Usability inspection methods: Executive summary. In Readings in human-computer interaction (pp. 170-181). Burlington, Massachusetts: Morgan Kaufmann.
Macleod, M. (1994). Usability: practical methods for testing and improvement. In Proceedings of the Norwegian Computer Society Software Conference (p. 2005). Sandvika, Norway.
Macleod, M., Bowden, R., Bevan, N., and Curson, I. (1997). The MUSiC performance measurement method. Behaviour & Information Technology, 16, 279-293.
Makino, S. (2005). The space of culture, the culture of space. ADFL Bulletin, 34(3), 10-14.
Mamat, A. R., Rasid, N. H. A., Ahmad, F., Abd Rawi, N., Mohamed, M. A., Awang, W. S. W., & Ghazali, F. (2017, October). Pre school selection system using Analytic Hierarchy Process (AHP): Implementation and usability study. In 2017 IEEE 2nd International Conference on Automatic Control and Intelligent Systems (I2CACIS) (pp. 7-12). IEEE.
Mao, J. Y., Vredenburg, K., Smith, P. W., & Carey, T. (2005). The state of user-centered design practice. Communications of the ACM, 48(3), 105-109.
Maramba, I., Chatterjee, A., & Newman, C. (2019). Methods of usability testing in the development of eHealth applications: a scoping review. International journal of medical informatics, 126, 95-104.
Markus, H., & Kitayama, S. (1991). Culture and the self: implication for cognition, emotion, and motivation. Psychological Review, 98, 224-253.
Marshall, C., Brendan, M., & Prail, A. (1990). Usability of product X - lessons from a real product. Behaviour & Information Technology, 9, 243-253.
Martinez, M., & Xue, D. (2016). Development of adaptable products based on modular design and optimization methods. Procedia CIRP, 50(1), 70-75.
McLellan, S., Muddimer, A., & Peres, S. C. (2012). The effect of experience on System Usability Scale ratings. Journal of usability studies, 7(2), 56-67.
McNamara, N., & Kirakowski, J. (2006). Functionality, usability, and user experience: three areas of concern. Interactions, 13(6), 26-28.
Mills, C., Bury, K. F., Roberts, T., Tognazzini, B., Wichansky, A., & Reed, P. (1986). Usability Testing in the Real World. In Proceedings of the SIGCHI conference on Human factors in computing systems (pp. 212-215). NY: ACM Press.
Mitta, D. A. (1993). An application of the analytic hierarchy process: A rank-ordering of computer interfaces. Human Factors, 35(1), 141-157.
Morse, G. (2015, October 28). What is a machine for living in? https://placeexploration.com/2015/10/28/a-house-is-a-machine-for-living-in/
Muckler, F. A., & Seven, S. A. (1992). Selecting performance measures:" Objective" versus" subjective" measurement. Human factors, 34(4), 441-455.
Mullins, P. M., & Treu, S. (1991). Measurement of stress to gauge user satisfaction with features of the computer interface. Behaviour & Information Technology, 10(4), 325-343.
Naqiuddin, N. H., Saw, L. H., Yew, M. C., Yusof, F., Poon, H. M., Cai, Z., & San Thiam, H. (2018). Numerical investigation for optimizing segmented micro-channel heat sink by Taguchi-Grey method. Applied Energy, 222, 437-450.
Naumann, A., & Wechsung, I. (2008). Developing usability methods for multimodal systems: The use of subjective and objective measures. In Proceedings of the International Workshop on Meaningful Measures: Valid Useful User Experience Measurement (VUUM) (pp. 8-12). Reykjavik, Island.
Newman, W., & Taylor, A., (1999). Towards a methodology employing critical parameters to deliver performance improvements in interactive systems. In Proceedings of IFIP TC.13 International Conference on Human - Computer Interaction (pp. 605-612). Amsterdam: IOS Press.
Ngo, T., Kunkel, J., & Ziegler, J. (2020, July). Exploring mental models for transparent and controllable recommender systems: a qualitative study. In Proceedings of the 28th ACM Conference on User Modeling, Adaptation and Personalization (pp. 183-191).
Nielsen, J. (1994a). Usability engineering. San Diego: Academic Press.
Nielsen, J. (1994b). Usability inspection methods. In CHI’94 Conference Companion on Human Factors in Computing Systems (pp.413-414). Boston, Massachusetts. https://doi.org/10.1145/259963.260531
Nielsen, J. (1997). Usability testing. In G. Salvendy (Ed.), Handbook of Human Factors and Ergonomics. New York, NY: John Wiley & Sons.
Nielsen, J. (2012). Usability 101: Introduction to usability (2012). http://www. nngroup. com/articles/usability-101-introduction-to-usability/
NIPPONIA. (2002). What Is This? Genkan. https://web-japan.org/nipponia/nipponia20/en/what/what01.html
Nithyanand, R., Saxena, N., Tsudik, G., & Uzun, E. (2010, September). Groupthink: Usability of secure group association for wireless devices. In Proceedings of the 12th ACM international conference on Ubiquitous computing (pp. 331-340). New York, NY: Association for Computing Machinery.
Norman, D. (2004) Emotional design: Why we love (or hate) everyday things. New York: Basic Books.
Norman, D. A. (1988a). The psychology of everyday things. New York, NY: Basic Books.
Norman, D. A. (1988b). The Design of Everyday Things. New York, NY: Basic Books.
Nurmi, H. (2004). A comparison of some distance-based choice rules in ranking environments. Theory and Decision, 57(1), 5-24.
Ohnuki-Tierney, E. (1984). Illness and culture in contemporary Japan. Cambridge, UK: Cambridge University Press.
Olabanji, O. M., & Mpofu, K. (2021). Appraisal of conceptual designs: Coalescing fuzzy analytic hierarchy process (F-AHP) and fuzzy grey relational analysis (F-GRA). Results in Engineering, 9, 100194.
Osorio-Tovar, J., & Grimaldo-Guerrero, J. W. (2020, May). Risk assessment of PCP lift system using a fishbone diagram and MICMAC method. In IOP Conference Series: Materials Science and Engineering (p. 012013). Bristol, UK: IOP Publishing.
Otto, K., & Wood, K. (2001). Product design:Techniques in reverse engineering and new product development. Upper Saddle River, NJ: Prentice-Hall International Inc.
Otto, K., & Wood, K. (2001). Product design:Techniques in reverse engineering and new product development. Upper Saddle River, NJ: Prentice-Hall International Inc.
Ozaki, R., & Lewis, J. R. (2006). Boundaries and the meaning of social space: a study of Japanese house plans. Environment and Planning D, 24(1), 91-104.
Pahl, G., & Beitz, W. (1988). Engineering design: a systematic approach. Nasa Sti/recon Technical Report A, 89, 47350.
Penića, M., Svetlana, G., & MurguL, V. (2015). Revitalization of historic buildings as an approach to preserve cultural and historical heritage. Procedia Engineering, 117, 883-890.
Petrie, H., & Bevan, N. (2009). The Evaluation of Accessibility, Usability, and User Experience. The universal access handbook, 1, 1-16.
Phadke, M., S., Kacker, R. N., Speeney, D. V., & Grieco, M. J. (1988). Off-line quality control in integrated circuit fabrication using experimental design. In K. Dehnad (Ed.), Quality control, robust designs and the Taguchi method (pp. 99-142). Pacific Grove, CA: Wadsworth, Brooks, and Cole.
Pine, B. J. (1993). Mass customization (Vol. 17). Boston: Harvard business school press.
Pine, B. J., Victor, B., & Boynton, A. C. (1993). Making mass customization work. Harvard business review, 71(5), 108-11.
Plevoets, B., & Van Cleempoel, K. (2013). Reinventing architecture and interiors: a socio-political view on building adaptation. London, England: Libri Publishers.
Popov, L., & Chompalov, I. (2012). Crossing over: The interdisciplinary meaning of behavior setting theory. International Journal of Humanities and Social Science, 2(19), 18-27.
Prakash, K. S., Gopal, P. M., & Karthik, S. (2020). Multi-objective optimization using Taguchi based grey relational analysis in turning of Rock dust reinforced Aluminum MMC. Measurement, 157, 107664.
Rabiee, F. (2004). Focus-group interview and data analysis. Proceedings of the Nutrition Society, 63(4), 655-660.
Radziwill, N. (2017). Creating ishikawa (fishbone) diagrams with R. Software Quality Professional, 20(1), 47-48.
Raita, E., & Oulasvirta, A. (2011). Too good to be bad: Favorable product expectations boost subjective usability ratings. Interacting with Computers, 23(4), 363-371.
Ramadhani, A. N., Faqih, M., & Hayati, A. (2017). Behaviour setting and spatial usage analysis on sombo low cost flat’s corridor. Journal of Architecture&ENVIRONMENT, 16(1), 61-74.
Ramaraj, P., Sahay, S., Kumar, S. H., Lasecki, W., & Laird, J. E. (2019). Towards using transparency mechanisms to build better mental models. Advances in Cognitive Systems, 7, 1-6.
Rapoport, A. (1969). House form and culture. Englewood Cliffs, NJ: Prentice-Hall.
Rapoport, A. (1977). Human Aspect of Urban Form. New York, NY: Pergarnon.
Rapoport, A. (1982). The meaning of the built environment: A nonverbal communication approach. Beverly, Hills, CA:Sage.
Rengger, R. (1991). Indicators of usability based on performance. In H. J. Bullinger (Ed.), Human Aspects in Computing, Design and Use of Interactive Systems and Work with Terminals, Proceedings of the Fourth International Conference on Human Computer Interaction (pp. 656-660). Stuttgart, Germany: Elsevier Science Publishers.
Revythi, A., & Tselios, N. (2019). Extension of Technology Acceptance Model by using System Usability Scale to assess behavioral intention to use e-learning. Education and Information technologies, 24(4), 2341-2355.
Robertson, I. W. (2018). Subjective usability evaluation: A comparison of four methods (unpublished doctoral dissertation). Rice University, Houston, TX,USA.
Rosenbaum, S. (1989). Usability evaluations versus usability testing: When and why?. IEEE Transactions on Professional Communication, 32(4), 210-216.
Ross, P. J. (1996). Taguchi Techniques for Quality Engineering: Loss Function, Orthogonal Experiments, Parameter and Tolerance Design (2nd ed.). New York, NY: McGraw-Hill.
Roy, B. (1971). Problems and Methods with Multiple Objective functions. Mathematical Programming, 1(1), 239-266.
Roy, R. (1990). A primer on the Taguchi method. New York: Van Nostrand Reinhold.
Roy, R. K. (2001). Design of Experiments using the Taguchi Approach: 16 Steps to Product and Process Improvement. New York, NY: John Wiley & Son Inc.
Rubin, J. (1994). Handbook of usability testing. New York, NY: John Wiley & Sons.
Rubin, J., & Chisnell, D. (2008). Handbook of usability testing: How to plan, design, and conduct effective tests (2nd ed.). Hoboken, NJ: John Wiley & Sons.
Ruthford, M. A., & Ramey, J. A. (2000). Design response to usability test findings: A case study based on artifacts and interviews. IEEE International Professional Communication Conference (pp. 315-323). Piscataway, NJ: IEEE.
Rutkowska, D., Pilinski, M., & Rutkowski, L. (1997). Neural Networks, Genetic Algorithms and Fuzzy Systems, PWN. Warszawa, Poland: Polish Scientific Publishers.
Ryu, Y. S. (2005). Development of usability questionnaires for electronic mobile products and decision making methods (unpublished doctoral dissertation). Virginia Tech, VA, USA.
Saaty, T. L. (1980). The analytic hierarchy process: Planning, priority setting, resources allocation. New York, NY: McGraw‐Hill.
Saaty, T. L. (1982). Decision making for leaders. The analytical hierarchy process for decisions in a complex world. Belmont: Wadsworth.
Saaty, T. L. (2000). Fundamentals of decision making and priority theory with the analytic hierarchy process (6th ed.). Pittsburgh, PA: RWS Publications.
Saaty, T. L. (2008). Decision making with the analytic hierarchy process. International journal of services sciences, 1(1), 83-98.
Saaty, T. L. (2008). Decision making with the analytic hierarchy process. International journal of molecular sciences, 1(1), 83-98.
Salama, A. M. (2020). Coronavirus questions that will not go away: interrogating urban and socio-spatial implications of COVID-19 measures. Emerald Open Research, 2(14).
Salvendy, G. (2012). Handbook of human factors and ergonomics (4th ed.). Hoboken, NJ: John Wiley & Sons, Inc.
Sand, J. C., & Gu, P. (2006). Advances in design. London, England: Springer.
Sarı, T., Baynal, K., & Ergül, Ö. (2016). Supplier selection with grey relational analysis. International Journal of Emerging Research in Management & Technology, 5, 61-70.
Sauro, J. (2011). A practical guide to the system usability scale: Background, benchmarks & best practices. Denver, CO: Measuring Usability LLC.
Sauro, J., & Lewis, J. R. (2009). Correlations among prototypical usability metrics: Evidence for the construct of usability. In Proceedings of the Special Interest Group on Computer Human Interaction Conference on Human Factors in Computing Systems (pp. 1609-1618). New York, NY: ACM. http://dx.doi.org/10.1145/1518701.1518947
Sauro, J., & Lewis, J. R. (2011). When designing usability questionnaires, does it hurt to be positive?. In Proceedings of the SIGCHI conference on human factors in computing systems (pp. 2215-2224). New York, NY: Association for Computing Machinery.
Schleifer, L. M., & Geoffrey okogbaa, O. (1990). System response time and method of pay: cardiovascular stress effects in computer-based tasks. Ergonomics, 33(12), 1495-1509.
Schoggen, P. (1989). Behavior settings: A revision and extension of Roger G. Barker’s ecological psychology. Bloomington, IN: Stanford University Press.
Seo, K. K., Park, J. H., Jang, D. S., & Wallace, D. (2002) Approximate estimation of the product life cycle cost using artificial neural networks in conceptual design. International journal of advanced manufacturing technology, 19(6), 461-471.
Serrat, O. (2017). The five whys technique. Knowledge solutions (pp. 307-310). Singapore: Springer.
Shackel, B. (1984). The concept of usability. Visual display terminals: Usability issues and health concerns, 45-87.
Shackel, B. (1990). Human factors and usability. In Preece, J., & Keller, L. (Eds.), Human-computer interaction: Selected Readings (pp. 27-41). Hemel Hempstead, UK: Prentice-Hall.
Shackel, B. (2009). Usability - Context, framework, definition, design and evaluation. Interacting with computers, 21(5-6), 339-346.
Shao, X., Wang, Z., Zhang, G., Li, P., & Gu P. (2006). Adaptability measure for product family-based adaptable design. Proceeding of the 16th CIRP international design seminar (pp.402-409). Kananaskis, Alberta, Canada.
Sharfina, Z., & Santoso, H. B. (2016). An Indonesian adaptation of the system usability scale (SUS). In 2016 International Conference on Advanced Computer Science and Information Systems (ICACSIS) (pp. 145-148). IEEE.
Sharfina, Z., & Santoso, H. B. (2016, October). An Indonesian adaptation of the system usability scale (SUS). In 2016 International Conference on Advanced Computer Science and Information Systems (ICACSIS) (pp. 145-148). IEEE.
Shih, H. S., Shyur, H. J., & Lee, E. S. (2007). An extension of TOPSIS for group decision making. Mathematical and computer modelling, 45(7-8), 801-813.
Shinde, D. D., Ahirrao, S., & Prasad, R. (2018). Fishbone diagram: Application to identify the root causes of student-staff problems in technical education. Wireless personal communications, 100(2), 653-664.
Sitanggang, N. G. A., Sihombing, A., Gabe, R. T., & Salsabilah, S. C. (2020, April). User’s Behavior Setting of Blok M MRT Station, Jakarta. In IOP Conference Series: Earth and Environmental Science (Vol. 452, No. 1, p. 012022). IOP Publishing.
Sivapragash, M., Kumaradhas, P., Retnam, B. S. J., Joseph, X. F., & Pillai, U. T. S. (2016). Taguchi based genetic approach for optimizing the PVD process parameter for coating ZrN on AZ91D magnesium alloy. Materials & Design, 90, 713-722.
Skiles, S. M., Singh, V., Krager, J., Seepersad, C. C., Wood, K. L., & Jensen, D. (2006, September). Adapted concept generation and computational techniques for the application of a transformer design theory. In ASME 2006 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (pp. 951-965). American Society of Mechanical Engineers Digital Collection, Philedelphia, PA.
Sofijanova, E., & Mitev, G. (2021). Spc technigues in the non–manufacturing areas. Journal of Economics, 6(1), 54-64.
Starn, R.(2002). Authenticity and historic preservation: towards an authentic history. History of the human sciences, 15(1), 1-16.
Stevens, S. S. (1958). Measurement and man. Science, 127(3295), 383-389.
Stone, R. B., Wood, K. L., & Crawford, R. H. (2000). A heuristic method for identifying modules for product architectures. Design studies, 21(1), 5-31.
Strube, G. (1987). Answering survey questions: The role of memory. In H .J. Hippler, N. Schwarz, & S. Sudman (Eds.), Social information processing and survey methodology (pp. 86-101). New York, NY: Springer-Verlag.
Suh, N. P. (2001). Axiomatic design: advances and applications. Oxford, USA: Oxford University Press.
Sun, G., Guan, X., Yi, X., & Zhou, Z. (2018). Grey relational analysis between hesitant fuzzy sets with applications to pattern recognition. Expert Systems with Applications, 92, 521-532.
Taguchi, G. (1993). Taguchi on Robust Technology Development Bringing Quality Engineering Upstream. New York: ASME Press.
Taguchi, G., Chowdhury, S., Wu, Y., Taguchi, S., & Yano, H. (2005). Taguchi’s quality engineering handbook. New York: Wiley-Interscience.
Teo, P., & Huang, S. (1995). Tourism and heritage conservation in Singapore. Annals of Tourism Research, 22(3), 589-615.
Timoshenko, S., & Young, D. H. (1937). Engineering Mechanics - Statics. New York, NY: Tata McGraw-Hill Education.
Tipnis, V. A. (1994). Challenges in product strategy, product planning and technology development for product life cycle design. CIRP Annals Manufacturing technology, 43(1), 157-162.
Tohjiwa, A. D., Pramantha, R. Q., & Paksi, P. R. E. (2021, November). Coastal Settlement Behavior Setting in Kampung Blok Empang, North Jakarta. In IOP Conference Series: Earth and Environmental Science (Vol. 933, No. 1, p. 012042). IOP Publishing.
Tong, L. I., & Su, C. T. (1997). Optimizing multi‐response problems in the Taguchi method by fuzzy multiple attribute decision making. Quality and reliability engineering International, 13(1), 25-34.
Triantaphyllou, E. (2000). Multi-criteria decision making methods: A comparative study (pp. 5-21). Boston, MA: Springer.
Tseng, M. M., & Du, X. (1998). Design by customers for mass customization products. Cirp Annals, 47(1), 103-106.
Tseng, M. M., & Jiao, J. (2001). Mass customization. Handbook of industrial engineering, 3, 684-709.
Tullis, T. S., & Stetson, J. N. (2004). A comparison of questionnaires for assessing website usability. Proceedings of UPA 2004 Conference (pp. 1-12). Minneapolis, Minnesota.
Turkington, D., & Drummond, D. C. (1989). How should opiate withdrawal be measured?. Drug and Alcohol Dependence, 24, 151-153.
Turner, V. (1967). The forest of symbols: Aspects of Ndembu ritual. Ithaca, New York, US: Cornell University Press.
Tutar, M., Aydin, H., Yuce, C., Yavuz, N., Bayram, A., (2014). The optimisation of process parameters for friction stir spot-welded AA3003-H12 aluminium alloy using a Taguchi orthogonal array. Materials and Design, 63, 789-797. https://doi.org/10.1016/j.matdes.2014.07.003.
Ulrich, K. T. (2003). Product design and development. New York, NY: Tata McGraw-Hill Education.
Uzun, M., & Armagan, K. (2018). Optimization of Compressive Strength of Concrete Added Glass Powder Using Taguchi Methods. Optimization, 7(12).
Väänänen-Vainio-Mattila, K., Roto, V., & Hassenzahl, M. (2008, June). Towards practical user experience evaluation methods. In E. L.C. Law, N. Bevan, G. Christou, M. Springett& M. Láárusdóttir (Eds.), Proceedings of the COST294-MAUSE Workshop on Meaningful Measures: Valid Useful User Experience Measurement (VUUM) (pp. 19-22). Reykjavik, Iceland: Institute of Research in Informatics of Toulouse.
Van Laarhoven, P. J. M., & Pedrycz, W. (1983). A Fuzzy Extension of Saaty＇s Priority Theory. Fuzzy Sets and systems, 11(3), 229-241.
Wallace, M. J., & Szilagyi, A. D. (1982). Managing behavior in organizations. Northbrook, IL: Pearson Scott Foresman.
Wallace, M. J., & Szilagyi, A. D. (1982). Managing behavior in organizations. Northbrook, Illinois: Pearson Scott Foresman.
Wang, J., Antonenko, P., Celepkolu, M., Jimenez, Y., Fieldman, E., & Fieldman, A. (2019). Exploring relationships between eye tracking and traditional usability testing data. International Journal of Human - Computer Interaction, 35(6), 483-494.
Wastell, D. G. (1990, August). Mental effort and task performance: towards a psychophysiology of human computer interaction. In Proceedings of the IFIP TC13 Third Interational Conference on Human-Computer Interaction (pp. 107-112). North-Holland, Amsterdam.
Wechsung, I., & Naumann, A. B. (2008, June). Evaluation methods for multimodal systems: A comparison of standardized usability questionnaires. In International Tutorial and Research Workshop on Perception and Interactive Technologies for Speech-Based Systems (pp. 276-284). Berlin, Heidelberg: Springer.
Westerberg, A. W., & Subrahmanian, E. (2000). Product design. Computers & Chemical Engineering, 24(2-7), 959-966.
Whitsed, C., & Wright, P. (2016). A bricolage exploration in genkan space: Tengu and adjunct TEFL in the Japanese university context. International Journal of Qualitative Studies in Education, 29(4), 594-615.
Wildman, D. (1995). Getting the most from paired-user testing. Interactions, 2(3), 21-27.
Wixon, D., & Whiteside, J. (1985). Engineering for Usability: Lessons From User-Derived Interface. In Proceedings of the 1985 SIGCHI Conference (pp. 144-147). NY: ACM Press.
Woods, S. N., Walters, M. L., Koay, K. L., & Dautenhahn, K. (2006, September). Methodological issues in HRI: A comparison of live and video-based methods in robot to human approach direction trials. In ROMAN 2006-the 15th IEEE international symposium on robot and human interactive communication (pp. 51-58). IEEE. http://dx.doi.org/10.1109/ROMAN.2006.314394
Wu, C. F. J., & Hamada, M. (2000). Experiments: Planning, analysis, and parameter design optimization. New York: Wiley.
Wu, Y., & Wu, A. (2000). Taguchi method for robust design. New York: ASME Press.
Xu, L. (1990). Basic concepts of chinese complex space. Journal of Architect (Jianzhu Shi), 39, 70-81.
Xu, Y., Chen, Y., Zhang, G., & Gu, P. (2008). Adaptable Design Of Machine Tools Structures. Chinese Journal of Mechanical Engineering, 21(3), 7-15.
Yagi, K., & Hata, R. O. (1982). A Japanese touch for your home (1st ed.). New York, US: Kodansha International.
Yang, Y. J., & John, R. (2012). Grey sets and greyness. Information Sciences, 185(1), 249-264.
Yang, Y. J., Liu, S. F., & John, R. (2014). Uncertainty representation of grey numbers and grey sets. IEEE Transactions on Cybernetics, 44(9), 1508-1517.
Yazdani, M., Kahraman, C., Zarate, P., & Onar, S. C. (2019). A fuzzy multi attribute decision framework with integration of QFD and grey relational analysis. Expert Systems with Applications, 115, 474-485.
Younas, M., Jaffery, S. H. I., Khan, M., Khan, M. A., Ahmad, R., Mubashar, A., & Ali, L. (2019). Multi-objective optimization for sustainable turning Ti6Al4V alloy using grey relational analysis (GRA) based on analytic hierarchy process (AHP). The International Journal of Advanced Manufacturing Technology, 105(1), 1175-1188.
Zadeh, L. A. (1975). Fuzzy logic and approximate reasoning. Synthese, 30(3-4), 407-428.
Zeisel, J. (2006). Inquiry by design. Cambridge: Cambridge University Press.
Zeng, Y., & Gu, P. (1999a). A science-based approach to product design theory Part I: Formulation and formalization of design process. Robotics and Computer-Integrated Manufacturing, 15(4), 331-339.
Zeng, Y., & Gu, P. (1999b). A science-based approach to product design theory Part II: Formulation of design requirements and products. Robotics and Computer-Integrated Manufacturing, 15(4), 341-352.
Zhang, D., Chen, M., Wu, S., Liu, J., & Amirkhanian, S. (2017). Analysis of the relationships between waste cooking oil qualities and rejuvenated asphalt properties. Materials, 10(5), 508.
Zhang, J., Xue, D. & Gu,P. (2015). Adaptable design of open architecture products with robust performance. Journal of Engineering Design, 26, 1-23.
Zhang, X., Jin, F., & Liu, P. (2013). A grey relational projection method for multi-attribute decision making based on intuitionistic trapezoidal fuzzy number. Applied Mathematical Modelling, 37(5), 3467-3477.
Zhou, R., & Chan, A. H. (2017a). Using a fuzzy comprehensive evaluation method to determine product usability: A proposed theoretical framework. Work, 56(1), 9-19.
Zhou, R., & Chan, A. H. (2017b). Using a fuzzy comprehensive evaluation method to determine product usability: A test case. Work, 56(1), 21-29.
Zimmerman, H. J. (1991). Fuzzy set theory and its application. Boston, MA: Kluwer Academic Publishers.
Zwicky, F. (1948). The morphological method of analysis and construction. New York, NY: Interscience Publishers.
Zwicky, F. (1969). Discovery, Invention, Research Through the Morphological Approach. New York, NY: Macmillan International Higher Education.