Volume 9, Issue 3 (9-2021)
JRIA 2021, 9(3): 115-130 |
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Department of Architecture, Sanandaj Branch, Islamic Azad University
Abstract: (5110 Views)
For centuries, architects have acknowledged the effects of the buildings in which we live, learn, work, and worship. How we feel, how we behave in these spaces, what energizing interactions within our bodies occur in these spaces, and our inspirations from these spaces, are very important today for architects and neuroscientists. The application of neuroscience, psychology, and architecture acquires a new trend called neuroarchitecture. This knowledge focuses on the design of architectural structures, humans, and seeks to design spaces with maximum efficiency and positive effects on space users. In this research, with the approach of neuroscience and with a combination of qualitative and quantitative research methods (correlation and laboratory) to the category of how to use architectural elements (such as light, geometry, color, materials, etc.) to evaluate the sense of spirituality in mosques (Dome) is addressed. The important point in this research is the use of neuroscience and laboratory tools in examining the emotions of users in space. The effect of the factors affecting the "feeling of spirituality" in the architectural space due to the changes in human brain signals is a matter between interdisciplinary and completely scientific and laboratory. The main purpose of neuroscience is to extract invisible information from the human brain. Therefore, no questions or questionnaires or interviews are taken from individuals, but information is extracted directly and without any intermediaries.
At the beginning of the research by the descriptive method refers to the types of brain signals and brain functions and previous research will be done in the background. in the first phase, by selecting a mosque related to the past (Sheikh Lotfollah Mosque of Isfahan) and a contemporary mosque (Al-Jawad Mosque of Tehran), through expert questionnaire and ANP method and SuperDecision software to determine the order of effective architectural components The perception of spirituality in the interior of these two mosques has been discussed. Then, in the second phase, in order to diagnose the emotions of people in selected mosques, laboratory work was performed by EEG-VR method, which means simultaneous use of electroencephalography and virtual reality devices. The subjects included 24 people (12 men and 12 women). Then, the data obtained from the experiment in MATLAB software were analyzed and then, for interpretation of information and by inferential statistics, multiple regression analysis was performed to test the hypothesis. In the third phase, the results of the first and second phases are merged and discussed. At the end of the study, it was concluded that there is a significant relationship between how to use architectural elements (light, color, materials, geometry, etc.) and promote a sense of spirituality in the interior of mosques and the mosque belongs to the past (Sheikh Lotfollah ) Has a greater sense of spirituality among the subjects than the contemporary mosque (Al-Jawad). It was also found that the use of emerging neuroscience knowledge in architectural research and the use of medical tools such as electroencephalography as well as new virtual reality technology, can be very effective in discovering human emotions and feelings.
At the beginning of the research by the descriptive method refers to the types of brain signals and brain functions and previous research will be done in the background. in the first phase, by selecting a mosque related to the past (Sheikh Lotfollah Mosque of Isfahan) and a contemporary mosque (Al-Jawad Mosque of Tehran), through expert questionnaire and ANP method and SuperDecision software to determine the order of effective architectural components The perception of spirituality in the interior of these two mosques has been discussed. Then, in the second phase, in order to diagnose the emotions of people in selected mosques, laboratory work was performed by EEG-VR method, which means simultaneous use of electroencephalography and virtual reality devices. The subjects included 24 people (12 men and 12 women). Then, the data obtained from the experiment in MATLAB software were analyzed and then, for interpretation of information and by inferential statistics, multiple regression analysis was performed to test the hypothesis. In the third phase, the results of the first and second phases are merged and discussed. At the end of the study, it was concluded that there is a significant relationship between how to use architectural elements (light, color, materials, geometry, etc.) and promote a sense of spirituality in the interior of mosques and the mosque belongs to the past (Sheikh Lotfollah ) Has a greater sense of spirituality among the subjects than the contemporary mosque (Al-Jawad). It was also found that the use of emerging neuroscience knowledge in architectural research and the use of medical tools such as electroencephalography as well as new virtual reality technology, can be very effective in discovering human emotions and feelings.
Type of Study: Research |
Subject:
Analysis of art and architectural schools based on Islamic view
Received: 2021/01/22 | Accepted: 2021/04/13 | Published: 2021/09/22
Received: 2021/01/22 | Accepted: 2021/04/13 | Published: 2021/09/22
References
1. Aaen-Stockdale C. (2012). Neuroscience for the Soul. Psychologist, 25(7): 520-3.
2. Academy of Neuroscience for Architecture. ( 2004).
3. Ando, M.;, Morita, T.; Miyashita, M.; Sanjo, M.; Kira, H. & Shima. Y. (2010). Effects of Bereavement Life Review on Spiritual Well-Being and Depression. Journal of Pain and Symptom Management, 40 (3): 453-459. [DOI:10.1016/j.jpainsymman.2009.12.028]
4. Eberhand, JP. & Patoine, B. )2004). Architecture with the brain in mind. www.dana.org
5. Edelstein, Eve. )2005 .( Neuroscience & Architecture of Spiritual Spaces. the interfaith forum on religious art and architecture of the American institute of architects & the academy of neuroscience for architecture. final workshop report.
6. Eliade M. )1959). The sacred and the profane; the nature of religion. New York: Harcourt.
7. Essawy, Sally, Kamel, Basil, Samir, Mohamed. )2014(.Sacred Buildings and Brain Performance: The Effect Of Sultan Hasan Mosque on Brain Waves of its Users. Creative space (CS), Vol. 1, No 2, pp. 123- 141. [DOI:10.15415/cs.2014.12006]
8. Fisher, J. W. (2010). Spiritual health: Its nature and place in the school curriculum. Melbourne: Melbourne University Custom Book Centre. ISBN/APN: 9 781921 775000.
9. Haidt, J. )2006(. The happiness hypothesis: finding modern truth in ancient wisdom. New York: Basic Books.
10. Hartz, GW. (2005). Spirituality and Mental Health: Clinical Applications. New York: Haworth press. [DOI:10.4324/9780203821589]
11. Hougaard. A; Lindberg. U.; Arngrim, N.; Larsson, HB.; Olesen, J, Amin, FM.; Ashina, M. & Haddock, BT. )2015(. Evidence of a Christmas spirit network in the brain: functional MRI study. BMJ. 351:h6266. [DOI:10.1136/bmj.h6266]
12. James, W. )1902.( The varieties of religious experience: a study in human nature. New York etc: Longmans, Green, and co. [DOI:10.1037/10004-000]
13. Lagopoulos, J.; Xu, J.; Rasmussen, I.; Vik, A.; Malhi, GS.; Eliassen, CF. & et al. (2009). Increased theta and alpha EEG activity during nondirective meditation. J Altern Complement Med. 15(11): 1187-92. [DOI:10.1089/acm.2009.0113]
14. Marzbani, H., Marateb, H. R., Mansourian, M., (2016), "Methodological Note: Neurofeedback: A Comprehensive Review on System Design, Methodology and Clinical Applications", Basic and Clinical neuroscience, Volume 7. Number 2. [DOI:10.15412/J.BCN.03070208]
15. Miller, Lisa. et al. (2018). Neural Correlates of Personalized Spiritual Experiences. Cerebral Cortex. doi: 10.1093/cercor/bhy102 [DOI:10.1093/cercor/bhy102]
16. Murata, H. and Morita, T. (2006). Conceptualization of psycho-existential suffering by the Japanese Task Force: The first step of a nationwide project. Pattern of Palliative Care, 4, 279-285. [DOI:10.1017/S1478951506060354]
17. Otto, R. & Harvey, JW. )1926(. The idea of the holy; an inquiry into the non-rational factor in the idea of the divine and its relation to the rational. London, New York, etc.: H. Milford, Oxford university press.
18. Peterman, AH.; Fitchett, G.; Brady, MJ. & et al. (2002). Measuring spiritual wellbeing in people with cancer: the Functional Assessment of Chronic Illness Therapy-Spiritual Well-Being Scale (FACIT-Sp). Ann Behav Med, 24:49-58. [DOI:10.1207/S15324796ABM2401_06]
19. Tenke, CE.; Kayser, J.; Svob, C.; Miller, L.; Alvarenga, JE.; Abraham, K.; Warner, V.; Wickramaratne, P.; Weissman, MM. & Bruder, GE. (2017). Association of posterior EEG alpha with prioritization of religion or spirituality: a replication and extension at 20- year follow-up. Biol Psychol. 124:79-86. [DOI:10.1016/j.biopsycho.2017.01.005]
20. Travis, F. (2001). Autonomic and EEG patterns distinguish transcending from other experiences during Transcendental Meditation practice. Int J Psychophysiol, 42: 1-9. [DOI:10.1016/S0167-8760(01)00143-X]
21. Urgesi, C.; Aglioti, SM.; Skrap, M. & Fabbro, F. )2010(.The spiritual brain: selective cortical lesions modulate human self transcendence. Neuron. 65:309-319. [DOI:10.1016/j.neuron.2010.01.026]
22. Yaden, DB.; Haidt, J.; Hood, RW.; Vago, DR. & Newberg, AB. )2017(. The Varieties of Self-Transcendent Experience. Review of General Psychology, 21(2), 143-160.
https://doi.org/10.1037/gpr0000102 [DOI:10.1037/gpr0000102.]
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