آمار
| تعداد نشریات | 50 |
| تعداد شمارهها | 2,079 |
| تعداد مقالات | 19,525 |
| تعداد مشاهده مقاله | 22,890,574 |
| تعداد دریافت فایل اصل مقاله | 21,126,168 |
Construction and Normalization of the Scale of Creativity in Architectural Design | ||
| International Journal of Architecture and Urban Development | ||
| دوره 12، شماره 3 - شماره پیاپی 45، مهر 2022، صفحه 73-86 اصل مقاله (1.53 M) | ||
| نوع مقاله: Applied Article | ||
| شناسه دیجیتال (DOI): 10.30495/ijaud.2022.62175.1544 | ||
| نویسندگان | ||
Behnam Kalantari1؛ Abdolmajid Nourtaghani  2؛ Mohammad Farrokhzad2
| ||
| 1Ph.D. Candidate, Department of Architecture, Sari Branch, Islamic Azad University, Sari, Iran | ||
| 2Assistant Professor, Department of Architecture, Faculty of Engineering, Golestan University, Gorgan, Iran. | ||
| چکیده | ||
| The ultimate goal of architectural studios is creative design. To achieve this goal, evaluating creativity in architecture education is considered as one of the important pillars of education. Due to the need for evaluation, the purpose of this study is to construct a test for measuring design creativity based on Torrance's components of creativity in architecture so that it can be used in design education. Therefore, this study seeks to create a measurable criterion for the components of Torrance using the innovative problem-solving method of Triz to evaluate creativity. The present study is descriptive-correlational. The research sample includes 32 architecture students selected by the available sampling method. Test validity is confirmed through confirmatory factor analysis ((χ2 / df = 1.68), (CFI = 0.97), (GFI = 0.98), (AGFI = 0.97) and (0.08 = RMSEA)), which shows that the model fits the data. The correlation between the creativity scale in architecture and Torrance creativity and CREE is significant, indicating the scale's convergent validity. In addition, through the split-half technique and in the method of random pairs, the. coefficient of validity for the component of flexibility, originality, expansion, and the total scale is equal to 0.90, 0.80, 0.75, and 0.91, respectively. Due to the good psychometrics of this tool reported in the research, it is a valid tool that can measure the increase in creativity components in architectural design and can be used in architectural studios and educational and psychological research | ||
| کلیدواژهها | ||
| Scale of creativity؛ Triz؛ Torrance؛ Architecture education | ||
| مراجع | ||
|
Aderonmu, P. A.; Chuku, O.; Fasae, O. & Ahmed, Z. (2019). Influence of personality characteristics on architecture students creativity: the didactic roles of educators in selected NIGERIAN SCHOOLS. International Journal of Civil Engineering and Technology, 10(5), 466-473. Akin, O., & Akin, C. (1998). On the process of creativity in puzzles, inventions, and designs. Automation in Construction, 7(2e3), 123e138. Altshuller, G. (2002). 40 principles: TRIZ keys to innovation (Vol. 1). Technical Innovation Center, Inc. Altshuller, G., Alʹtov, G., & Altov, H. (1996). And suddenly, the inventor appeared: TRIZ, the theory of inventive problem-solving. Technical Innovation Center, Inc. Amabile, T. M. (1983). The social psychology of creativity: A componential conceptualization. Journal of personality and social psychology, 45(2), 357. Ardakani, S. (2008). An Analysis of the Five Levels of Innovation in TRIZ Knowledge. The First National Conference on Creativity and Engineering and Innovation Management in Iran, Tehran, Iran. Beitz, W., Pahl, G., & Grote, K. (1996). Engineering design: a systematic approach. Mrs. Bulletin, 71. Besemer, S. P., & Treffinger, D. J. (1981). Analysis of creative products: review and synthesis. Journal of Creative Behavior, 15(3), 158-178. Betz, J. (2009, June). Assessing creativity in architectural design: Evidence for using student peer review in the studio as a learning and assessment tool. In 2009 Annual Conference & Exposition (pp. 14-236). Casakin, H., & Kreitler, S. (2006). Evaluating creativity in design problem-solving. Casakin, H.; Koronis, G. & Silva, A. (2019, September). The role of the brief in supporting creative ideation in the design studio: Quantitative requirements and visual props. In International Association of Societies of Design Research Conference. Chiu, I. & Salustri, F. A. (2010). Evaluating design project creativity in engineering design courses. Proceedings of the Canadian Engineering Education Association (CEEA). Chulvi, V. Sonseca, Á.; Mulet, E. & Chakrabarti, A. (2012). Assessment of the relationships among design methods, design activities, and creativity. Journal of Mechanical Design, 134(11), 111004. Daneshgar Moghadam, G. (2009). Understanding the problem of design in education (examining the components affecting the adequate understanding of the problem of design as a starting point for beginner designers). Journal of Fine Arts, 37, 59-68. Dayemi,H.,& Moghimi Barforush,F.(2004). Creativity Test Standardization. Cognitive Science News, 23(6), 1-8. De Bono, E. (1995). Serious creativity. The Journal for Quality and Participation, 18(5), 12. Demirkan, H., & Afacan, Y. (2012). Assessing creativity in design education: Analysis of creativity factors in the first-year design studio. Design Studies, 33(3), 262-278. Farid, D.; Roozbehani, S. & Ghobadi, A. (2008) TRIZ algorithm: An effective approach in fostering creative thinking. The first national conference on creativity and engineering and innovation management in Iran, Tehran. Fiorineschi, L. Frillici, F. S. & Rotini, F. (2018). Enhancing functional decomposition and morphology with TRIZ: Literature review. Computers in Industry, 94, 1-15. Forouzanfar , F.,Javidnezhad, M .& Pourzarghar, M. (2018). Measuring indicators of creativity in the process of architectural design before and after research-based education (fluidity, elaboration, initiative, and flexibility). Journal of Urban Management, 17(50), 199-214. Hargrove, R. (2012). Fostering creativity in the design studio: A framework towards effective pedagogical practices. Art, Design & Communication in Higher Education, 10(1), 7-31. Hassanzadeh , R. & Eimanifar,P. (2010). the Relationship between Creativity and Self-Esteem with Academic Achievement of Adolescents and Youth. Journal of Sociology of Youth Studies, 1(13), 55-65. Horn, D., & Salvendy, G. (2006). Product creativity: conceptual model, measurement, and characteristics. Theoretical Issues in Ergonomics Science, 7(4),395-412. Horn, D., & Salvendy, G. (2009). Measuring consumer perception of product creativity: Impact on satisfaction and purchasability. Human Factors and Ergonomics in Manufacturing & Service Industries, 19(3), 223-240. Ilevbare, I. M. Probert, D. & Phaal, R. (2013). A review of TRIZ and its benefits and challenges in practice. Technovation, 33(2-3), 30-37. Isfahani ,M.,& Bahramipour,M. (2017). the effectiveness of TRIZ education on creativity and its components in 8-12-year-old students in Isfahan. The third international conference on new horizons in educational sciences, psychology, and social pathology. , Tehran. Jahan, F.; Arsi, K.; Rezaei, F. & Mohammad, A. (2014). The effectiveness of TRIZ education on increasing the level of creativity and its components in students. Innovation and Creativity in the Humanities, 4 (1), 65-82. Kalantari, B., Nourtaghani, A., & Farrokhzad, M. (2020). An Educational model of Creativity Enhancement in Design Studios Using Prior Researches. Space Ontology International Journal, 9(3), 15-26. Keong, C. S., Yip, M. W., Swee, N. S. L., Toh, G. G., & Tai, S. C. (2017). A review of TRIZ and its benefits & challenges in stimulating creativity in problem-solving of pre-university students: A TARUC case study. Journal of Advances in Humanities and Social Sciences, 3(5), 247-263. Koronis, G., Silva, A., & Kang, J. (2018, 20-24 May). The impact of design briefs on creativity: a study on measuring student designer’s outcomes. Paper presented at the 15th International Design Conference, Dubrovnik, Croatia. De Montigny, D., Smithson, H., & Wright, C. (2009). Teaching engineering design and communication in First-Year using Rube Goldberg Projects. Proceedings of the Canadian Engineering Education Association (CEEA). Mahdavi Nejad, M.J. (2005). Creativity and the Process of Creative Education in Architectural Design. Journal of Fine Arts, 21,57-66. Mahmoudi, (1998). Training the process of architectural design; Utilizing students’ latent talents. Journal of Fine Arts, 4 (1), 73-81. https:// Mahmoudi, A.M. (2002). Challenges of teaching architectural design in Iran: A survey of professors and students’ point of view. Journal of Fine Arts, 12,70-79. Mansourian, Alireza (2007). Creative Engineering of Triz (Innovative Theory of Problem Solving), Tehran, Rasa Cultural Services Institute. Nadimi, Sh. (2016). Research on the use of process booklet as a teaching aid tool in an architectural design workshop. Journal of Fine Arts, 21(2), 33-44. Nasiri,M.,& Arefi,M. (2005). The Relationship between Creativity and Self-Esteem with Academic Achievement of Adolescents and Youth. The first national scientific conference on psychology, educational sciences, and pathology of society, Tehran. O’Neil, H., Abedi, J., & Spielberger, C. (1994). The measurement and teaching of creativity. In H. O’Neil & M.Drillings (Eds.). Motivation: Theory and research, Hillsdale, NJ: Erlbaum. Pelt, A.V., & Hey, J. (2011). Using TRIZ and human-centered design for consumer product development.Procedia Engineering. 9, 688–693. Scheiner,C,E.,Baccarella,C.V., Bessant, J., & Voigt, K. (2014). Thinking patterns and gut feeling in technology identification and evaluation. Technological Forecasting & Social Change. In Press, Corrected Proof, Available online 10 January 2014. Sobhiyah, M. H., Bemanian, M. R., & Keshtiban, Y. (2008). Creativity in architecture students (A survey on three models for knowledge transfer on student’s views). Iranian Journal of Engineering Education, 10(37), 49-67. Torrance, E. P. (1965). Scientific views of creativity and factors affecting its growth. Daedalus, 663-681. Torrance, E. P. (1998). Torrance tests of creative thinking: Norms-technical manual: Figural (streamlined) forms A & B. Scholastic Testing Service. Ullman, D. G. (1992). The mechanical design process (Vol. 2). New York: McGraw-Hill. Urban, K. K. (2004). Assessing creativity: the test for creative thinking-drawing production (TCT-DP) the concept, application, evaluation, and international studies. Psychology Science, 46(3), 387-397. Watters, P. (2017). Measuring the Creativity of Architecture Students. Williams, A., Ostwald, M., & Askland, H. H. (2010). Assessing creativity in the context of architectural design education. Xiong, L., Teng, C. L., Li, Y. Q., Lee, Y. Z., Zhu, B. W., & Liu, K. (2019). A Qualitative-Quantitative Evaluation Model for Systematical Improving the Creativity of Students’ Design Scheme. Sustainability, 11(10), 2792. Yaghoubi, A, Jahan, F . (2015). Comparison of the effectiveness of TRIZ education and brainstorming on students’ creativity. New Educational Thoughts, 11 (1), 103-122. | ||
|
آمار تعداد مشاهده مقاله: 126 تعداد دریافت فایل اصل مقاله: 132 |
||
