Evolution of interior space design criteria on the quality of urban environment: Literature review

SIMSEK TOLACI, SEDA; erkan, ilker; Diker, Fadime; Sahin, Arzu

doi:10.47818/DRArch.2023.v4i3097

Evolution of interior space design criteria on the quality of urban environment: Literature review

Seda Şimşek, (Süleyman Demirel Üniversitesi, Denizli, Türkiye)

İlker Erkan, (Süleyman Demirel Üniversitesi, Denizli, Türkiye)

Fadime Diker, (Süleyman Demirel Üniversitesi, Denizli, Türkiye)

Arzu Şahin (Süleyman Demirel Üniversitesi, Denizli, Türkiye)

Journal of Design for Resilience in Architecture and Planning

13 1

Yıl: 2023 Cilt: 4 Sayı: 3 Sayfa Aralığı: 258 - 285 Metin Dili: İngilizce DOI: 10.47818/DRArch.2023.v4i3097 İndeks Tarihi: 19-12-2023

Evolution of interior space design criteria on the quality of urban environment: Literature review

Öz:

Efforts to increase the quality of this environment have been going on since the beginning of the concern for shelter in the history of humanity. The main targets of the user, designers, practitioners, and decision-makers are to carry the quality of life, health, safety, and welfare of individuals and other living things to the next level. Problems have been identified to increase the function and quality of the space, spatial requirements have been determined, and researched, and some design factors have been determined to reach the most appropriate solution. The researchers focused on the proposition that the effectiveness of these factors before and during the design process would increase the quality of the space. However, since research generally focuses on indoor quality, the outdoor quality factors that are part of urban design are not clear. This work, was designed to evaluate the usability of these factors, which were determined and measured especially to deal with the interior, in designs at larger scales (street, neighborhood, city…) and to improve the existing. In designs outside the spatial scale, where almost all factors can be controlled by the relevant stakeholders of the process, the subject is approached through changeable and unchangeable parameters and their balancing. Studies on the factors determined during the process were compiled and their effects on different scales were evaluated as a result of these compilations. As a result of the evaluation, some suggestions were given. In the process of redesigning the space, selecting feasible suggestions, and incorporating them into the creation of the future physical space, using the suggestions as urban rehabilitation tools, and considering these interventions to be flexible and suitable for various factors are of great importance for the psychology of the users.

Anahtar Kelime: interior design criteria urban environment rehabilitation improvement suggestions

Belge Türü: Makale Makale Türü: Derleme Erişim Türü: Erişime Açık

Aburawis, A. (2019). Evaluating the relationship between indoor soundscape perception and overall spatial experience through acoustical post-occupancy evaluation (Ph.D. Thesis). Çankaya University, Ankara.
Acosta, I. & Figueiro, M., (2015). Analysis of Circadian Stimulus Allowed by Daylighting in Hospital Rooms, Lighting Research and Technology, 49, 49–61.
Acun, V., & Yilmazer, S. (2018). Understanding the indoor soundscape of study areas in terms of users’ satisfaction, coping methods and perceptual dimensions. Noise Control Engineering Journal, 66(1), 66–75.
Adang, D., Campo, B., & Vander Vorst, A. (2006, September). Has a 970 MHz pulsed exposure an effect on the memory related behaviour of rats? In 2006 European Conference on Wireless Technology (pp. 135-138). IEEE.
Ahadi A. A., Hanmohammadi M. K., Masoudinejad M., & Alirezaie B., (2016). Improving student performance by proper utilization of daylight in educational environments (Case study: IUST1 School of Architecture), Acta Technica Napocensis: Civil Engineering Architecture, 59 (1), 1- 21.
Akın, G., (2013). Ergonomi. Alter Yayınları, 248s, Ankara.
Al Zaabi, E. J., Nassif, R. & Mushtaha, E., (2017), Daylighting in Educational Buildings: Its Effects on Students and How to Maximize Its Performance in the Architectural Engineering Department of the University of Sharjah, International Sustainable Buildings Symposium, 141-159.
Al-Ashwal, N. T., & Hassan, A. S. (2018). The Impact of Daylighting-Artificiel Lighting Integration on Building Occupant's Health and Performance. International Journal Transaction Journal of Engineering Management & Applied Sciences & Technologies, 9, 97-105.
Aletta, F., Mynsbrugge, V. T., Van de Velde, D., Vriendt, P., Thomas, P., Flipan, K., Botteldooren, D., & Devos, P. (2018). Awareness of ‘sound’ in nursing homes: A large-scale soundscapes survey in Flanders (Belgium). Building Acoustics, 25(1), 43-59.
Alexander, C. (1977). A pattern language: towns, buildings, construction. Oxford university press.
Allen, J. G., MacNaughton, P., Satish, U., Santanam, S., Vallarino, J., & Spengler, J. D. (2016). Associations of Cognitive Function Scores with Carbon Dioxide, Ventilation, and Volatile Organic Compound Exposures in Office Workers: A Controlled Exposure Study of Green and Conventional Office Environments. Environmental Health Perspectives, 124(6), 805-812. https://10.1289/ehp.1510037
Allen, J. G., MacNaughton, P., Satish, U., Santanam, S., Vallarino, J., & Spengler, J. D. (2016). Associations of cognitive function scores with carbon dioxide, ventilation, and volatile organic compound exposures in office workers: a controlled exposure study of green and conventional office environments. Environmental health perspectives, 124(6), 805-812.
Ameen, R. F. M., Mourshed, M., & Li, H. (2015). A critical review of environmental assessment tools for sustainable urban design. Environmental Impact Assessment Review, 55, 110-125.
Andersen, R. V., Toftum, J., Andersen, K. K., & Olesen, B. W. (2009). Survey of occupant behaviour and control of indoor environment in Danish dwellings. Energy and Buildings, 41(1), 11-16.
Astolfi, A., & Pellerey, F. (2008). Subjective and objective assessment of acoustical and overall environmental quality in secondary school classrooms. The Journal of the Acoustical Society of America, 123(1), 163-173.
Attia, S., Hamdy, M., O’Brien, W., & Carlucci, S. (2013). Assessing gaps and needs for integrating building performance optimization tools in net zero energy buildings design. Energy Build., 60, 110–124.
Azadi, H., Ho, P., Hafni, E., Zarafshani, K., & Witlox, F. (2011). Multi-stakeholder involvement and urban green space performance. Journal of Environmental Planning and Management, 54(6), 785-811.
Baker, N. V., Fanchiotti, A., & Steemers, K. (2013). Daylighting in architecture: a European reference book. Routledge.
Banaei, M., Hatami, J., Yazdanfar, A., & Gramann, K. (2017). Walking through architectural spaces: the impact of interior forms on human brain dynamics. Frontiers in human neuroscience, 477.
Baysal, F., Elanur, A. D. A. R., Sakar, S., & Nuhoglu, Y. (2019). The determination of microorganisms in indoor and outdoor atmosphere in the YTU Davutpasa campus. Sigma Journal of Engineering and Natural Sciences, 37(2), 563-571.
Bernat, S. (2016). Analysis of Social Conflicts in Poland’s Soundscape as a Challenge to Socio-Acoustics. Archives of Acoustics, 41(3), 415-426.
Bilen, S.Ö., (2004). Kentsel Dış Mekânların Tasarımında Antropometrik Verilere Bağlı Olarak Peyzaj Elemanlarının Ankara Örneğinde Araştırılması. Ankara Üniversitesi, Fen Bilimleri Enstitüsü, Doktora Tezi, 159s, Ankara.
Bodart, M., & De Herde, A., (2002). Global energy savings in offices buildings by the use of daylighting. Energy and buildings, 34(5), 421-429.
Bogusz, E., Skrodzka, E., Hojan, E., Jakubowski, M., Talukder, A., & HojanJezierska, D. (2011). Sounds and Vibrations Necessary for library of vibroacoustic events addressed to visually impaired persons–Questionnaire Results. Polish Journal of Environmental Studies, 20(6), 1395-1401.
Bonnes, M., Scopelliti, M., Fornara, F., & Carrus, G. (2018). Urban environmental quality. Environmental psychology: An introduction, 113-122.
Boyce, P. R. (1973). Age, illuminance, visual performance and preference. Lighting Research & Technology, 5(3), 125-144.
Boyce, P., Hunter, C., & Howlett, O., (2003). The benefits of daylight through windows. Troy, New York: Rensselaer Polytechnic Institute.
Brewer, J., Davis, K., Dunning, K., & Succop, P. (2009). Does ergonomic mismatch at school impact pain in school children? Work, 34, 455–464.
Brown, A. L., J. Kang, & T. Gjestland. (2011). “Towards Standardization in Soundscape Preference Assessment.” Applied Acoustics 72 (6): 387–92.
Bughio, M. A., Shahid, A., & Ahmad, S. S. (2021). Indoor environmental quality of lecture halls in Karachi, Pakistan: A comparison between actual parameters and users' perception. Sustainable Cities and Society, 73, 103061.
Çağlar, M. (2013). I Hear You: Soundwalking in Tarlabaşı. (M.Sc. Thesis). Kadir Has Üniversitesi İstanbul.
Çakır, O. (2019) A model for assessing acoustic comfort in enclosed public spaces. (Ph.D. Thesis). İzmir Institute of Technology University, İzmir.
Calthorpe, P. (1993). The next American metropolis: Ecology, community, and the American dream. Princeton architectural press.
Cammaerts, M. C., Vandenbosch, G. A., & Volski, V. (2014). Effect of short-term GSM radiation at representative levels in society on a biological model: the ant Myrmica sabuleti. Journal of insect behavior, 27, 514-526.
Carl Blackman, Cell phone radiation (2009). Evidence from ELF and RF studies supporting more inclusive risk identification and assessment, ISP Pathophysiol. 16 (2) (2009) 205–216.
Carmona, M. (2010). Contemporary public space: Critique and classification, part two: -Critique. Journal of urban design, 15(2), 123-148.
Carr, S. (1992). Public space. Cambridge University Press.
Chang, Y.-H., & Lin, W.-C. (2020). Developing a machine learning model to predict indoor air quality using a sensor-based smell index. Building and Environment, 169, 1-10.
Chatzidimitriou, A., & Yannas, S. (2016). Microclimate design for open spaces: Ranking urban design effects on pedestrian thermal comfort in summer. Sustainable Cities and Society, 26, 27-47.
Chellappa, S. L., Steiner, R., Oelhafen, P., & Cajochen, C. (2017). Sex differences in light sensitivity impact on brightness perception, vigilant attention and sleep in humans. Scientific reports, 7(1), 14215.
Chen, B., & Kang, J. (2004). Acoustic Comfort in Shopping Mall Atrium Spaces A Case Study in Sheffield Meadow Hall. Architectural Science Review, 47:2, 107-144.
Chen, C., Zhao, B., & Cui, X. (2017). Ventilation rates in classrooms and carbon dioxide concentrations as related to cognitive performance of students. Indoor Air, 27(4), 704-717.
Chen, C., Zhao, B., Weschler, C. J., & Zhang, Y. (2017). VOCs and CO2 in Different Indoor Environments in China: Concentrations, Sources, and Health Implications. Indoor Air, 27(4), 784-798. https://10.1111/ina.12350
Chen, S., et al. (2018). Real-time monitoring-based optimization of indoor air quality and energy performance in commercial buildings. Energy and Buildings, 158, 740-749. https://10.1016/j.enbuild.2017.10.034
Chen, X., & Kang, J. (2017). Acoustic comfort in large dining spaces. Applied Acoustics, 115, 166-172.
Chen, Y., Guo, Y., Liu, Q., Liu, Y., & Lei, Y. (2023). Therapeutic lighting in the elderly living spaces via a daylight and artificial lighting integrated scheme. Energy and Buildings, 112886.
Cheng, M., & Ling, H. (2019). The impact of indoor air quality on human productivity. Indoor and Built Environment, 28(6), 803-813.
Clarke, R.S.J., Hellon, R.F. & Lind, A.R. (1958). The duration of sustained contractions of the human forearm at different muscle temperatures. J. Appl. Physiol., 143, 454-473
Çobanlar, G. A., & Koyuncu, Ş. (2022). Ortak Kullanım Alanı Olarak Fakülte Yeme İçme Mekanları Tasarımında Ergonomi: Eskişehir Teknik Üniversitesi Örneği. International Journal of Engineering Research and Development, 14(3), 154-172.
da Fonseca, R. W., Didoné, E. L., & Pereira, F.O.R., (2013). Using artificial neural networks to predict the impact of daylighting on building final electric energy requirements. Energy and Buildings, 61, 31-38.
Dallimer, M., Tang, Z., Bibby, P. R., Brindley, P., Gaston, K. J., & Davies, Z. G. (2011). Temporal changes in greenspace in a highly urbanized region. Biology letters, 7(5), 763-766.
de Bruin, J., et al. (2020). Odour pollution and its mitigation in Europe. Environmental Sciences Europe, 32(1), 1-17.
Deng, M., Wang, X., & Menassa, C. C. (2021). Measurement and prediction of work engagement under different indoor lighting conditions using physiological sensing. Building and Environment, 203, 108098.
Dereli T., Seçkiner S. U., & Durmuşoğlu A., (2006). Otomobil İç Mekan Tasarımı: Ergonomi Penceresinden Bir Bakış, Machinery Makinetek Aylık İmalat ve Teknoloji Kültürü Dergisi, 106.
Despenic, M., Chraibi, S., Lashina, T., & Rosemann, A. (2017). Lighting preference profiles of users in an open office environment. Building and Environment, 116, 89-107.
Di Giulio, M., Grande, R., Di Campli, E., Di Bartolomeo, S., & Cellini, L. (2010). Indoor air quality in university environments. Environmental monitoring and assessment, 170, 509-517.
Diker, F., & Erkan, İ. (2022a). Fuzzy logic method in the design of elementary school classrooms. Architectural Engineering and Design Management, 18(5), 739-758.
Diker, F., & Erkan, İ. (2022b). The fuzzy logic method in assessing window design for the visual comfort of classrooms at the early design stage. Journal of Architectural Engineering, 28(2), 04022013.
Dobrin, M., (1998), Daylighting in over-glazed educational buildings. Case Study of a school in Slovenia, Environmentally Friendly Cities, PLEA, 98, 437-440.
Dokmeci Yorukoglu, P. N., & Kang, J. (2017). Development and testing of indoor soundscape questionnaire for evaluating contextual experience in public spaces. Building Acoustics, 24(4), 307-324.
Dul, J., & Weerdmeester, B.A., (2007). Ergonomi: Ne, Neden, Nasıl?. Çev. Yavuz, M., Kahraman, N., Seçkin Yayıncılık, 215s, Ankara.
Dupláková, D., & Flimel, M. (2017). Layout effect of manufacturing workplace to illumination of working position. International Journal of Engineering Technologies IJET, 3(1), 11-13.
Duyar, İ., (1995). İnsanın Fiziksel Boyutlarındaki Değişmeler ve Ergonomik Açıdan Önemi. Milli Prodüktivite Merkezi Yayınları, 5. Ergonomi Kongresi, 15-17 Kasım, İstanbul, 180-189.
Edwards, L., & Torcellini, P., (2002). Literature review of the effects of natural light on building occupants.
Edytia, M. H. A., Meutia, E., Sahputra, Z., Billah, M. A., & Shafwa, P. (2021, April). Optimization the Use of Artificial Lighting at Architectural Design Studios in Architecture Study Program of Universitas Syiah Kuala. In IOP Conference Series: Earth and Environmental Science (Vol. 738, No. 1, p. 012036). IOP Publishing.
EN 12464-1. Light and lighting - lighting of workplaces - part 1: indoor workplaces. Brussels: European committee for standardization; 2002.
Environmental Protection Agency. (n.d.). Indoor Air Quality. Retrieved from https://www.epa.gov/indoor-air-quality-iaq
Environmental Protection Agency. (n.d.). Outdoor Air Pollution. Retrieved from https://www.epa.gov/outdoor-air-pollution
Erkan, İ. (2021). Cognitive response and how it is affected by changes in temperature. Building Research & Information, 49(4), 399-416.
Erlalelitepe, İ., Aral, D. ve Kazanasmaz, T., (2011). Eğitim yapılarının doğal aydınlatma performansı açısından incelenmesi, Megaron, Yıldız Teknik Üniversitesi Mimarlık Dergisi, 6, 39-51.
Erozan, İ., Özel, E., & Erozan, D. (2023). A two-stage system proposal based on a type-2 fuzzy logic system for ergonomic control of classrooms and offices. Engineering Applications of Artificial Intelligence, 120, 105854.
Fakhari, M., Fayaz, R., & Asadi, S. (2021). Lighting preferences in office spaces concerning the indoor thermal environment. Frontiers of Architectural Research, 10(3), 639-651.
Fisk, W. J., Chan, W. R., Johnson, M. D., & Siddiqui, A. (2019). Effectiveness of portable air cleaners and masks in reducing indoor PM2.5 concentrations and exposures in buildings: a review. Building and Environment, 166, 106377.
Fisk, W. J., Chan, W. R., Johnson, M. D., Tomic, J., & Shendell, D. G. (2019). Indoor particulate matter in California bedrooms of asthmatic children: concentrations, size distributions and sources. Indoor air, 29(1), 19-32.
Fisk, W. J., Chan, W. R., Mendell, M. J., & Eliseeva, E. A. (2019). Association of Residential Fine Particulate Matter with Ventilation Rates in California Homes. Indoor Air, 29(1), 32-45. https://10.1111/ina.12503
Florida, R. (2002). The Rise of the Creative Class. 2002. Reprinted Christchurch: Hazard Press Limited.
Fontoynont, M., (2002). Perceived performance of daylighting systems: lighting efficacy and agreeableness. Solar Energy, 73(2), 83-94.
Frontczak, M., & Wargocki, P. (2011). Literature survey on how different factors influence human comfort in indoor environments. Building and environment, 46(4), 922-937.
Frontczak, M., Andersen, R. V., & Wargocki, P. (2012). Questionnaire survey on factors influencing comfort with indoor environmental quality in Danish housing. Building and Environment, 50, 56-64.
Fu, Q., Fu, H., Yan, H., Zhou, B., Chen, X., & Li, X. (2020). Human-centric metrics for indoor scene assessment and synthesis. Graphical Models, 110, 101073.
Fusaro, G., & Kang, J. (2021). Participatory approach to draw ergonomic criteria for window design. International Journal of Industrial Ergonomics, 82, 103098.
Gehl, J (2013). Cities for People Washington D.C., Island Press.
Gianfredi, V., Buffoli, M., Rebecchi, A., Croci, R., Oradini-Alacreu, A., Stirparo, G., ... & Signorelli, C. (2021). Association between urban greenspace and health: a systematic review of literature. International Journal of Environmental Research and Public Health, 18(10), 5137.
Guastavino, C. (2006). The ideal urban soundscape: Investigating the sound quality of French cities. Acta Acustica united with Acustica, 92(6), 945-951.
Güler, Ç. (Ed.), (2001). Ergonomiye Giriş (Ders Notları). Ankara Tabip Odası Yayınları, 319s, Ankara.
Gülgün, B., & Altuğ, İ. (2006). İzmir kıyı bandı uygulamalarında ergonomik standartlara uygunluğun değerlendirilmesi üzerine bir araştırma. Ege Üniversitesi Ziraat Fakültesi Dergisi, 43(1), 145-156.
Hakgudener, S., (2007). Future of Wlan and The Influences to The Architectural Forms And Design. Yeditepe University.
Hansen, V. G., (2006). Innovative daylighting systems for deep-plan commercial buildings. PhD Diss., Queensland University of Technology, Brisbane.
Hassanain, M. A. (2007). Post-occupancy indoor environmental quality evaluation of student housing facilities. Architectural Engineering and Design Management, 3(4), 249-256.
Haverinen-Shaughnessy, U., Shaughnessy, R. J., Cole, E. C., Toyinbo, O., & Moschandreas, D. J. (2015). An assessment of indoor environmental quality in schools and its association with health and performance. Building and Environment, 93, 35-40.
Hedge, A. (2004). Ergonomic Design Issues and Carpet: A Review. International E-Journal of Flooring Sciences, 1.
Hedge, A. (2013, September). The importance of ergonomics in green design. In Proceedings of the Human Factors and Ergonomics Society Annual Meeting (Vol. 57, No. 1, pp. 1061-1065). Sage CA: Los Angeles, CA: SAGE Publications.
Hedge, A., & Dorsey, J. A. (2013). Green buildings need good ergonomics. Ergonomics, 56(3), 492-506.
Hedge, A., Rollings, K., & Robinson, J. (2010). “Green” ergonomics: Advocating for the human element in buildings. In Proceedings of the Human Factors and Ergonomics Society Annual Meeting (Vol. 54, No. 9, pp. 693-697). Sage CA: Los Angeles, CA: SAGE Publications.
Hemmati , M. (2002) . Multi-stakeholder processes for governance and sustainability beyond deadlock and conflict, London : Earthscan.
Hilari, K., Klippi, A., Constantinidou, F., Horton, S., Penn, C., Raymer, A., ... & Worrall, L. (2015). An international perspective on quality of life in aphasia: A survey of clinician views and practices from sixteen countries. Folia Phoniatrica et Logopaedica, 67(3), 119-130.
Hiwar, W., King, M. F., Shuweihdi, F., Fletcher, L. A., Dancer, S. J., & Noakes, C. J. (2021). What is the relationship between indoor air quality parameters and airborne microorganisms in hospital environments? A systematic review and meta analysis. Indoor Air, 31(5), 1308-1322.
Hodgson, A. T., & Beal, D. (2002). Photocatalytic oxidation for indoor air purification: a literature review. Atmospheric environment, 36(24), 3121-3138.
Hodgson, A. T., et al. (2002). Indoor environmental measurements and health: a review and analysis of the literature. Risk Analysis, 22(5), 895-902. https://10.1111/0272-4332.00083
Hojan, E., Jakubowski, M., Talukder, A., Wereda, H., Furmann, A., Ewertowski, R., . . . Bogusz, E. (2012). A new method of teaching spatial orientation to the blind. Acta Physica Polonica A, 121(1A), A5-A8.
Hu, X. C. (2017, May). Design and optimization of the lighting environment for the brand clothing stores based on DIALUX software. In 2017 2nd International Conference on Materials Science, Machinery and Energy Engineering (MSMEE 2017) (pp. 340-344). Atlantis Press.
Huang, Z., Liu, Q., Liu, Y., Pointer, M. R., Liu, A., Bodrogi, P., & Khanh, T. Q. (2020). Gender difference in colour preference of lighting: a pilot study. Light Eng, 28, 111-122.
Humphreys, M. A. (2005). Quantifying occupant comfort: are combined indices of the indoor environment practicable? Building Research & Information, 33(4), 317-325.
Hvass, M., Van Den Wymelenberg, K., Boring, S., & Hansen, E. K. (2021). Intensity and ratios of light affecting perception of space, co-presence and surrounding context, a lab experiment. Building and Environment, 194, 107680.
Iommi, M. (2019). Daylighting performances and visual comfort in Le Corbusier's architecture. The daylighting analysis of seven unrealized residential buildings. Energy and Buildings, 184, 242-263.
Iwashita, G., & Akasaka, H. (1997). The effects of human behavior on natural ventilation rate and indoor air environment in summer—a field study in southern Japan. Energy and Buildings, 25(3), 195-205.
Jaakkola, J.J.K., Heinonen, O.P. & Seppen, O. (1989). Sick Building Syndrome, sensation of dryness and thermal comfort in relation to room temperature in an office building: need for individual control of air temperature. Environment International, 15, 163-168
Jablonska, J., Trocka-Leszczynska, E., & Tarczewski, R. (2015). Sound and architecture–mutual influence. Energy Procedia, 78, 31-36.
Jacobs, J. (1961). The Death and Life of Great American Cities. Random House.
Jia, Y., & Zhai, Z. (2019). Indoor air quality and occupant comfort in green buildings: a review. Energy and Buildings, 188, 142-152.
Jiang, A., Yao, X., Westland, S., Hemingray, C., Foing, B., & Lin, J. (2022). The Effect of Correlated Colour Temperature on Physiological, Emotional and Subjective Satisfaction in the Hygiene Area of a Space Station. International Journal of Environmental Research and Public Health, 19(15), 9090.
Kaplan, R. (1993). The role of nature in the context of the workplace. Landscape and urban planning, 26(1-4), 193-201.
Karwowski, W., (2000). Symvatology: The Science of an Artifact-Human Compalibility”, Theoretical Issues in Ergonomic Science, 1 (1), 76-91.
Kasof, J. (2002). Indoor lighting preferences and bulimic behavior: An individual differences approach. Personality and individual differences, 32(3), 383-400.
Kembel, S. W., Jones, E., Kline, J., Northcutt, D., Stenson, J., Womack, A. M., ... & Green, J. L. (2012). Architectural design influences the diversity and structure of the built environment microbiome. The ISME journal, 6(8), 1469-1479.
Keyvanfar, A., Shafaghat, A., Abd Majid, M. Z., Lamit, H. B., Hussin, M. W., Ali, K. N. B., & Saad, A. D. (2014). User satisfaction adaptive behaviors for assessing energy efficient building indoor cooling and lighting environment. Renewable and Sustainable Energy Reviews, 39, 277-295.
Khalid, H., Kogi, K., & Helander, M. (2019). Ergonomics intervention of workplaces using SEANES ergonomic checkpoints. In Proceedings of the 20th Congress of the International Ergonomics Association (IEA 2018) Volume VII: Ergonomics in Design, Design for All, Activity Theories for Work Analysis and Design, Affective Design 20 (pp. 1125-1134). Springer International Publishing.
Kim, D. S., Cho, S. W., Kim, S. H., & Lee, C. H. (2017). Real-Time Indoor Environmental Monitoring System Using Wireless Sensor Networks. Energies, 10(4), 427. https://10.3390/en10040427
Kim, J. H., Kim, Y. M., Cheong, H. K., & Kim, Y. K. (2018). Indoor air quality assessment in public buildings and its health implications in Korea. International journal of environmental research and public health, 15(7), 1326.
Kim, J. T. & Kim, G., (2010). Overview and new developments in optical daylighting systems for building a healthy indoor environment, Building and Environment, 45 (2), 256-269.
Kim, J., Kim, M., Choi, Y., & Kim, J. (2016). Urban odor mapping: a new approach for assessing odor annoyance levels in city centers. Journal of Environmental Planning and Management, 59(11), 1919-1935.
Kim, J., Lee, K., Lee, J., Park, J., & Kim, H. (2016). Impact of outdoor odor quality on urban planning and design. Building and Environment, 103, 164–172.
Kim, J., Ryu, Y., & Lee, J. (2021). Odor quality measurement and assessment: a review. Sensors, 21(2), 376.
Kim, S. Y., Kim, Y. H., Kim, M. J., Kim, K. H., & Ahn, K. (2017). Wireless sensor network-based indoor environmental monitoring system for energy-efficient buildings. Energies, 10(8), 1128.
Kim, T., Hong, T., Cheon, S., & Kim, S. (2017). Wireless sensor network-based indoor environment monitoring for sustainable building energy management. Sustainability, 9(2), 217.
Knez, I., & Kers, C. (2000). Effects of indoor lighting, gender, and age on mood and cognitive performance. Environment and Behavior, 32(6), 817-831.
Konis, K., (2013). Evaluating daylighting effectiveness and occupant visual comfort in a side-lit open-plan office building in San Francisco, California, Building and Environment, 59, 662-677.
Korsavi S. S., Zomorodian Z. S., & Tahsildoost, M., (2016). The Effect of Window Configuration on Daylight Performance in Classrooms: A Field and Simulation Study, International Journal of Architectural Engineering Urban Plan, 2 6(1), 15-24.
Košir, M., Krainer, A., Dovjak, M., & Kristl, Ž., (2011). Görsel ve görsel olmayan efektler için otomatik olarak kontrol edilen gün ışığı. Aydınlatma Araştırma ve Teknolojisi, 43 (4), 439-455.
Krogstad, A-L., Swanbeck, G., Barregård, L., Hagberg, S., Rynell, K.B., Ran, A. & Jorulf, L. (1991). Besvär vid kontorsarbete med olika temperaturer i arbetslokalen- en prospektiv undersökning (A prospective study of indoor climate problems at different temperatures in offices, in Swedish). Göteborg, Sweden: Volvo Truck Corporation.
Krüger, E. L. & Dorigo, A. L., (2008). Daylighting analysis in a public school in Curitiba, Brazil, Renewable Energy, 33 (7), 1695-1702.
Krüger, E. L., Tamura, C., & Trento, T. W. (2018). Identifying relationships between daylight variables and human preferences in a climate chamber. Science of the Total Environment, 642, 1292-1302.
Kubba, S. (2010). Indoor environmental quality. LEED Practices, Certification, and Accreditation Handbook, 211.
Lai, A. C. K., Mui, K. W., Wong, L. T., & Law, L. Y. (2009). An evaluation model for indoor environmental quality (IEQ) acceptance in residential buildings. Energy and buildings, 41(9), 930-936.
Lai, J. H., & Yik, F. W. (2007). Perceived importance of the quality of the indoor environment in commercial buildings. Indoor and built environment, 16(4), 311-321.
Lai, J. H., & Yik, F. W. (2009). Perception of importance and performance of the indoor environmental quality of high-rise residential buildings. Building and Environment, 44(2), 352-360.
Lan, L., Hadji, S., Xia, L., & Lian, Z. (2021, June). The effects of light illuminance and correlated color temperature on mood and creativity. In Building Simulation (Vol. 14, pp. 463-475). Tsinghua University Press.
Langer, S., Bekö, G., Weschler, C. J., & Toftum, J. (2015). Increased classroom ventilation rate improves cognitive performance among school children. Indoor Air, 25(6), 693-704.
Langer, S., Bekö, G., Weschler, C. J., Toftum, J., Callesen, M., & Clausen, G. (2015). Effect of Classroom Ventilation Rate on Acoustical and Indoor Environmental Quality. Building and Environment, 91, 50-57. https://10.1016/j.buildenv.2015.03.021
Larkin, A., van Donkelaar, A., Geddes, J. A., Martin, R. V., & Hystad, P. (2016). Relationships between changes in urban characteristics and air quality in East Asia from 2000 to 2010. Environmental science & technology, 50(17), 9142-9149.
Leather, P., Pyrgas, M., Beale, D., & Lawrence, C., (1998). Windows in the workplace: Sunlight, view, and occupational stress. Environment and behavior, 30(6), 739-762.
Lee, J., Boubekri, M., & Park, J. (2022). DAYLIGHT, HUMAN HEALTH, AND DESIGN FOR SUSTAINABLE GREEN BUILDINGS: A SYSTEMATIC REVIEW. Journal of Green Building, 17(4), 151-178.
Lee, J., Ryu, Y., Kim, J., & Lee, J. (2019). The impact of indoor environmental quality on occupants' comfort perception and health. Building and Environment, 160, 106196.
Li, D. H., & Lam, J.C., (2001). Evaluation of lighting performance in office buildings with daylighting controls. Energy and buildings, 33(8), 793-803.
Li, D. H., Cheung, K. L., Wong, S. L., & Lam, T. N. (2010). An analysis of energy-efficient light fittings and lighting controls. Applied Energy, 87(2), 558-567.
Li, Y., Ru, T., Chen, Q., Qian, L., Luo, X., & Zhou, G. (2021). Effects of illuminance and correlated color temperature of indoor light on emotion perception. Scientific Reports, 11(1), 14351.
Lin, T. P., & Hwang, R. L. (2017). Investigation of the effect of natural ventilation on indoor air quality using CFD. Journal of Wind Engineering and Industrial Aerodynamics, 164, 84-94.
Lin, T.-P., & Hwang, R.-L. (2017). Numerical investigation of the effect of natural ventilation on indoor air quality in a hospital ward. Building and Environment, 114, 197–208.
Liu, J., & Zhu, Y. (2020). Improving indoor air quality: A review. International Journal of Environmental Research and Public Health, 17(18), 6570.
López-Chao, V., Lorenzo, A. A., & Martin-Gutiérrez, J. (2019). Architectural indoor analysis: A holistic approach to understand the relation of higher education classrooms and academic performance. Sustainability, 11(23), 6558.
Lynch, K. (1960). The Image of the City. MIT Press.
Lynch, K. (1964). The image of the city. MIT press.
Lynch, K. (1981). Good City Form the MIT Press. Cambridge, Massachusetts.
Manav, B., (2007). An experimental study on the appraisal of the visual environment at offices in relation to colour temperature and illuminance. Building and environment, 42(2), 979-983.
Marans, R. W. (2012). Quality of urban life studies: An overview and implications for environment-behaviour research. Procedia-Social and Behavioral Sciences, 35, 9-22.
Mavromatidis, L. E., Marsault, X., & Lequay, H. (2014). Daylight factor estimation at an early design stage to reduce buildings' energy consumption due to artificial lighting: A numerical approach based on Doehlert and Box–Behnken designs. Energy, 65, 488-502.
Meese, G.B., Kok, R., Lewis, M.I. & Wyon, D.P. (1982). Effects of moderate cold and heat stress on factory workers in Southern Africa, 2: skill and performance in the cold. South African J. Science, 78, 189-197
Mei, H., & Kang, J. (2012). An experimental study of the sound field in a large atrium. Building and environment, 58, 91-102.
Meng, Q., Kang, J., & Jin, H. (2013). Field study on the influence of spatial and environmental characteristics on the evaluation of subjective loudness and acoustic comfort in underground shopping streets. Applied Acoustics, 74(8), 1001-1009.
Mirrahimi, S., Ibrahim, N. N., & Surat, M., (2013, April). Effect of daylighting on student health and performance. In Proceedings of the 15th International Conference on Mathematical and Computational Methods in Science and Engineering, Kuala Lumpur, Malaysia (pp. 2-4).
Mohamed, N., Othman, N. (2012). Push and pull factor: Determining the visitors’ satisfactions at urban recreational area. Procedia-Social and Behavioral Sciences, 49, 175-182.
Mølhave, L., Bach, E., Pedersen, O. F., & Gyntelberg, F. (1986). Human perception of low concentrations of chemical pollutants: odor, irritation, and some other symptoms. International archives of occupational and environmental health, 58(4), 253-258.
Nag, P. K. (2018). Characteristics of indoor environmental quality. In Office Buildings: Health, Safety and Environment (pp. 279-310). Singapore: Springer Singapore.
Nagano, K., & Horikoshi, T. (2005). New comfort index during combined conditions of moderate low ambient temperature and traffic noise. Energy and Buildings, 37(3), 287-294.
Nazaroff, W. W., & Weschler, C. J. (2019). Indoor Chemistry. Environmental Science & Technology Letters, 6(9), 522-528. https://10.1021/acs.estlett.9b00495
Newman, O. (1973). Defensible space: Crime prevention through urban design. New York: Collier Books.
Nilsson, M., & Berglund, B. (2006). Soundscape quality in suburban green areas and city parks. Acta Acustica United with Acustica, 92, 903-911.
Nowicka, E. (2020). The acoustical assessment of the commercial spaces and buildings. Applied Acoustics, 169, 107491.
Nunes, F., Menzies, R., Tamblyn, R.M., Boehm, E. & Letz, R. (1993). The effect of varying level of outdoor air supply on neurobehavioural performance function during a study of Sick Building Syndrome (SBS). Indoor Air '93, Helsinki, Proceedings, 1, 53-58
Okcu, S., Ryherd, E. E., Zimring, C., & Samuels, O. (2011). Soundscapes evaluations in two critical healthcare setting with different designs. Journal of the Acoustical Society of America, 130(3), 1348-1358.
Olszewska, A., Marques, P.F., Barbosa, F., (2014). Urban Planning, neurosciences and comtemplation for improving well-being in our cities. Urban Planning, neurosciences and comtemplation for improving well-being in our cities.
Olszewska-Guizzo, A., Fogel, A., Escoffier, N., Ho, R. (2021b). Effects of COVID-19-related stay-at-home order on neuropsychophysiological response to urban spaces: Beneficial role of exposure to nature? Journal of Environmental Psychology, 75, 101590.
Öner, O. (2021). Space speaks to those who listen to it from soundwalks and spatial perception studies to urban planning: The Kadiköy akustik example. (Ph.D. Thesis). İstanbul Technical University, İstanbul.
Onmek, N., Kongcharoen, J., Singtong, A., Penjumrus, A., & Junnoo, S. (2020). Environmental factors and ventilation affect concentrations of microorganisms in hospital wards of Southern Thailand. Journal of Environmental and Public Health, 2020.
Orhan, C., & Yilmazer, S. (2021). Harmony of context and the built environment: Soundscapes in museum environments via GT. Applied Acoustics, 173, 107709
Ozorhon, I. F., & Uraz, T. U. (2014). Natural light as a determinant of the identity of architectural space. Journal of Architecture and Urbanism, 38(2), 107-119.
Pacione, M. (2003). Urban environmental quality and human wellbeing—a social geographical perspective. Landscape and urban planning, 65(1-2), 19-30.
Pagilla, K. R., Mehta, K. C., & Nagaraja, H. N. (2015). Impact of indoor air quality on occupant productivity in commercial buildings. International Journal of Sustainable Built Environment, 4(2), 219-225.
Pallasmaa, J. (2007). The eyes of the skin: Architecture and the senses. John Wiley & Sons.
Park, K. W., Athienitis, A. K., 2003. Workplane illuminance prediction method for daylighting control systems. Solar Energy, 75(4), 277-284.
Park, N. K., & Farr, C. A. (2007). Retail store lighting for elderly consumers: an experimental approach. Family and Consumer Sciences Research Journal, 35(4), 316-337.
Parsons, K. C. (2000). Environmental ergonomics: a review of principles, methods and models. Applied ergonomics, 31(6), 581-594.
Pavlíková, E. A. Ergonomic Aspects of Public Recreation. Public recreation and landscape protection, 141.
Pepler, R.D. (1964). Psychological effects of heat. In: Leithead, C.S and Lind, A.R., eds., Heat stress and heat disorders., 237-271. London: Cassell
Pepler, R.D. & Warner, R.E. (1968). Temperature and learning: an experimental study. ASHRAE Transactions, 74, 211-219
Preller, L., Zweers, T., Brunekreef, B. and Bolej, J.S.M. (1990). Sick leave due to work-related health complaints among office workers in the Netherlands. Indoor Air '90, Toronto, Proceedings, 1, 227-230
Prussin, A. J., & Marr, L. C. (2015). Sources of airborne microorganisms in the built environment. Microbiome, 3, 1-10.
Rafiq, M.Y.; Mathews, J.D., Bullock, G.N. (2003). Conceptual Building Design—Evolutionary Approach. J. Comput. Civ. Eng., 17, 150–158
Rasmussen, B., & Rindel, J. H. (2010). Sound insulation between dwellings–Descriptors applied in building regulations in Europe. Applied Acoustics, 71(3), 171-180.
Reiter R, Robinson J. (1996). Melatonin: your body’s natural wonder drug. New York: Bantam
Roffael, E., Bourquard, C., Hofstetter, P., & Gehr, P. (2019). Indoor Air Quality – Sick Building Syndrome. Swiss Medical Weekly, 149, w20079. https://10.4414/smw.2019.20079
Roffael, E., Fischer, M., & Böhme, S. R. (2019). Indoor air quality in offices and its relationship with sick building syndrome: an overview. Building and Environment, 151, 298-310.
Roffael, E., Hennig, R., Meier, L., Roth, N., & Zahradnik, M. (2019). Sick building syndrome: Indoor air quality in selected office buildings in Austria. PloS one, 14(12), e0226385.
Ross A. Speaking out. BBC Radio Scotland, (10 January 1992). Electromagn News 1992, 3(3-4), 7.
Rozhin, Naeemaee. (2022). Assessment of reverberance perception and preferential acoustical conditions in educational atriums (M.Sc. Thesis). Bilkent University, Ankara.
Ruck, N.C., (2006). International Energy Agency's Solar Heating and Cooling Task 31,'Daylighting Buildings in the 21 Century'. Energy and buildings, 38.
Rui, Z., Siqi, L., & Yan, L. (2017). Impact of indoor odor quality on human behavior. Journal of Sensory Studies, 32(1), e12253.
Rui, Z., Xiping, L., & Zhibin, L. (2017). The impact of indoor air quality on human performance: Evidence from a study of call center employees. Building and Environment, 124, 276-285.
S. Lee, Y. (2014). Collaborative activities and library indoor environmental quality affecting performance, health, and well-being of different library user groups in higher education. Facilities, 32(3/4), 88-103.
Sabancı, A., (1989). Ergonomi ve Tarihsel Gelişimi, Milli Prodüktivite Merkezi Yayınları, I. Ergonomi Kongresi, 23-26 Mayıs, Ankara, 20-27s.
Sadek, A., & Nofal, E. (2013). Effects of indoor environmental quality on occupant satisfaction in healing environments. In Proceedings of Building Simulation Cairo 2013 Conference: Towards Sustainable & Green Life (pp. 348-358). Building Simulation Cairo.
Salonen, H., Lahtinen, M., Lappalainen, S., Nevala, N., Knibbs, L. D., Morawska, L., & Reijula, K. (2013). Physical characteristics of the indoor environment that affect health and wellbeing in healthcare facilities: A review. Intelligent Buildings International, 5(1), 3-25.
Samani, S.A., (2012). The Impact of Indoor Lighting on Students’ Learning Performance in Learning Environments: A Knowledge Internalization Perspective, International Journal of Business and Social Science, 3 (24), 127-136.
Şansal, K.E., (2013). Effects on Natural Light on the Psychological Well-Being and Performance in a Population of School Children, 9. Ulusal Aydınlatma Kongresi, (ss.285-288). İDTM, İstanbul, 19-20 Nisan.
Saraiva, T. S., De Almeida, M., Bragança, L., & Barbosa, M. T. (2018). Environmental comfort indicators for school buildings in sustainability assessment tools. Sustainability, 10(6), 1849.
Saunders, T. (2003). Health hazards and electromagnetic fields. Complementary Therapies in Nursing and Midwifery, 9(4), 191-197.
Schafer, R. (1972). World Soundscape Project in Music in the Social and Behavioral Sciences. W. F. Thompson An Encyclopedia (s. 1203-1204).
Schafer, R. M. (1969). The new soundscape. Don Mills: BMI Canada Limited.
Schafer, R. M. (1977). The Tuning of the World. New York: Random House Inc.
Schafer, R. M. (1993). The Soundscape: Our Sonic Environment and the Tuning of the World. Rochester Vt.: Destiny Books.
Seppänen, O., Fisk, W. J., & Mendell, M. J. (2006). Association of ventilation rates and CO2 concentrations with health and other responses in commercial and institutional buildings. Indoor air, 16(4), 222-241.
Shahryar, H. (2012). A Study on the investigation of the energy efficient building envelope in terms of heat, light and sound (M.Sc. Thesis). İstanbul Technical University, İstanbul.
Shamsuddin, S., Hassan, N.R.A., & Bilyamin, S.F.I., (2012). Walkable environment in increasing the liveability of a city. Procedia-Social and Behavioral Sciences, 50, 167-178.
Shishegar, N., & Boubekri, M., (2016, April). Natural light and productivity: Analyzing the impacts of daylighting on students’ and workers’ health and alertness. In Proceedings of the International Conference on “health, Biological and life science” (HBLS-16), Istanbul, Turkey (pp. 18-19).
Sinoo, M. M., Van Hoof, J., & Kort, H. S. (2011). Light conditions for older adults in the nursing home: Assessment of environmental illuminances and colour temperature. Building and Environment, 46(10), 1917-1927.
Sivani, S., & Sudarsanam, D. (2012). Impacts of radio-frequency electromagnetic field (RF-EMF) from cell phone towers and wireless devices on biosystem and ecosystem-a review. Biology and Medicine, 4(4), 202.
Smith, C. R. (2009). Institutional determinants of collaboration: an empirical study of county. Journal of public adiminstration research and theory, 19 : 1 – 21 .
Soldatenko, S., Bogomolov, A., & Ronzhin, A. (2021). Mathematical modelling of climate change and variability in the context of outdoor ergonomics. Mathematics, 9(22), 2920.
Steinemann, A. C., et al. (2016). Ten questions concerning green buildings and indoor air quality. Building and Environment, 107, 275-284.
Stokkermans, M., Vogels, I., de Kort, Y., & Heynderickx, I. (2018). A Comparison of Methodologies to Investigate the Influence of Light on the Atmosphere of a Space. Leukos, 14(3), 167-191.
Sü Gül, Z. , Çalışkan, M., & Özyurt, Z. B. (2020, December). Acoustical design challenges of public interiors: cultural centers and terminal buildings. In Proceedings of Meetings on Acoustics 179ASA (Vol. 42, No. 1, p. 015002). Acoustical Society of America.
Sü Gül, Z., & Çalışkan, M. (2007). Acoustical design and noise control in metro stations: case studies of the Ankara metro system. Building Acoustics, 14(3), 203-221.
Subramanya, K. N., Rao, K. R., Shobha, N. S., & Sudarshan, B. G. (2022). Auditing of Indoor Environmental Parameters from Ergonomics Perspective in a Garment Manufacturing Unit–A Case Study. In Productivity with Health, Safety, and Environment: Select Proceedings of HWWE 2019 (pp. 381-390). Singapore: Springer Nature Singapore.
Sundell, J., Levin, H., & Nazaroff, W. W. (2011). Ventilation rates and health: multidisciplinary review of the scientific literature. Indoor Air, 21(3), 191-204.
Talebmorad, H., Abedi-Koupai, J., Eslamian, S., Mousavi, S. F., Akhavan, S., Ostad-Ali-Askari, K., & Singh, V. P. (2021). Evaluation of the impact of climate change on reference crop evapotranspiration in Hamedan-Bahar plain. International Journal of Hydrology Science and Technology, 11(3), 333-347.
Tost, H., Champagne, F. A., Meyer-Lindenberg, A. (2015). Environmental influence in the brain, human welfare and mental health. Nature neuroscience, 18(10), 1421-1431.
Tran, M. T., Wei, W., Dassonville, C., Martinsons, C., Ducruet, P., Mandin, C., ... & Wargocki, P. (2023). Review of Parameters Measured to Characterize Classrooms’ Indoor Environmental Quality. Buildings, 13(2), 433.
Truax, B. (1978). The World Soundscape Project's Handbook for Acoustic Ecology. Burnaby, Canada.
Truax, B. (1996). Soundscape, acoustic communication and environmental sound composition. Contemporary Music Review, 15(1-2), 49-65.
Ulrich, R. S. (1984). View through a window may influence recovery from surgery. science, 224(4647), 420-421. University. Vernon, H.M. 1936. Accidents and their prevention. Cambridge, England: University Press
Vizi, G.N., & Vandenbosch, G. A.E., (2016). Building materials and electromagnetic radiation: The role of material and shape, Journal of Building Engineering 5, 96-103.
Volkow, N. D., Tomasi, D., Wang, G. J., Vaska, P., Fowler, J. S., Telang, F., ... & Wong, C. (2011). Effects of cell phone radiofrequency signal exposure on brain glucose metabolism. Jama, 305(8), 808-813.
Vural, H., (2020). Çevre Tasarımı ve İnsan. Yaşaroğlu, C. (Ed.), Çevre Psikolojisine Giriş (107-137). Nobel Akademik Yayıncılık, 320s, Ankara.
Wang, C., Zhang, F., Wang, J., Doyle, J. K., Hancock, P. A., Mak, C. M., & Liu, S. (2021). How indoor environmental quality affects occupants’ cognitive functions: A systematic review. Building and environment, 193, 107647.
Wang, Y., Hu, Y., Bai, J., Liu, W., Zhao, X., & Yang, X. (2019). Indoor air quality evaluation using air quality indices and its health impact on students in an elementary school. International journal of environmental research and public health, 16(6), 940.
Whoqol Group. (1995). The World Health Organization quality of life assessment (WHOQOL): position paper from the World Health Organization. Social science & medicine, 41(10), 1403-1409.
Wilkinson, R.T., Fox, R.H., Goldsmith, R., Hampton, I.F.G. and Lewis, H.E. 1964. Psychological and physiological responses to raised body temperature. J. Appl. Physiol., 19, 287-291
Winterbottom, M. & Wilkins, A., (2009). Lighting and discomfort in the classroom, Journal of environmental psychology, 29 (1), 63-75.
Wong, L. (2017). A review of daylighting design and implementation in buildings. Renewable and Sustainable Energy Reviews, 74, 959-968.
Wong, L. T., Mui, K. W., & Hui, P. S. (2008). A multivariate-logistic model for acceptance of indoor environmental quality (IEQ) in offices. Building and environment, 43(1), 1-6.
Wu, Y., Zhang, Y., Liu, C., Liu, S., Zhao, B., & Shi, J. (2021). Sensor-based odor quality monitoring system for outdoor environments. Building and Environment, 198, 107774.
Wyon, D. P. (1996). Indoor environmental effects on productivity. In Proceedings of IAQ. Vol. 96, 5-15.
Wyon, D.P. (1970). Studies of children under imposed noise and heat stress. Ergonomics, 13, 598-612
Wyon, D.P., Kok, R., Lewis, M.I., & Meese, G.B. (1982). Effects of moderate cold and heat stress on the performance of factory workers in Southern Africa, 1: Introduction to a series of full-scale simulation studies. South African J. Science, 78, 184-189
Yadav, S., et al. (2018). Indoor and outdoor air quality assessment of selected residential buildings in Patna, India. Aerosol and Air Quality Research, 18(2), 389-400. https://10.4209/aaqr.2017.12.0602
Yang, T., & Kang, J. (2020). Subjective evaluation of sequential spaces. Applied Acoustics, 161, 107139.
Yang, W., & Kang, J. (2005). Soundscape and sound preferences in urban squares. Journal of Urban Design, 10(1), 69-88.
Yang, W., & Moon, H. J., (2019). Combined effects of acoustic, thermal, and illumination conditions on the comfort of discrete senses and overall indoor environment. Building and Environment 148, 623-633
Yilmazer, S., & Bora, Z. (2017). Understanding the indoor soundscape in public transport spaces: A case study in Akköprü metro station, Ankara. Building Acoustics, 24(4), 325-339.
Yoon, Y., Moon, J. W., & Kim, S. (2016). Development of annual daylight simulation algorithms for prediction of indoor daylight illuminance. Energy and Buildings, 118, 1-17.
Yörük, İ., Gülgün, B., Sayman, M., & Ankaya, F. Ü. (2006). Peyzaj planlama çalışmaları kapsamında Ege Üniversitesi kampüs örneğindeki peyzaj donatı elemanlarının ergonomik-antropometrik açıdan irdelenmesi. Ege Üniversitesi Ziraat Fakültesi Dergisi, 43(1), 157-168.
Zang, C. (2003). Electromagnetic body versus chemical body. Sci Med Network Rev, 81, 7, 9.
Zeng, Y., Sun, H., Yu, J., & Lin, B. (2022). Effects of correlated color temperature of office light on subjective perception, mood and task performance. Building and Environment, 224, 109508.
Zhang, J., Sun, Y., & Kim, J. H. (2018). Assessment of Electrostatic Air Filters for Reducing Indoor Particulate Matter Pollution in Residential Buildings. Building and Environment, 139, 1-10. https://10.1016/j.buildenv.2018.04.044
Zhang, Y., Mo, J., Li, Y., & Sundell, J. (2018). Effects of electrostatic air cleaners and ionizers on particles and ozone in indoor air: a review. Building and Environment, 139, 118-126.
Zheng, X., Chen, L., & Yang, J. (2023). Simulation framework for early design guidance of urban streets to improve outdoor thermal comfort and building energy efficiency in summer. Building and Environment, 228, 109815.
Zheng, Y., Chen, M., Wang, W., Lin, Y., Chen, S., & Du, L. (2018). Data Analysis on Outdoor-Indoor Air Quality Variation: Buildings’ Producing Dynamic Filter Effects. International Journal of Environmental Research and Public Health, 15(11), 2552.
Zhong, X., Tu, Y., Wang, B., Jin, K., Wang, Y., & Teunissen, K. (2017, May). P 142: Influence of Illumination Level on Visual Fatigue and Lighting Preference for Different Age Groups in China. In SID Symposium Digest of Technical Papers (Vol. 48, No. 1, pp. 1808-1811).

APA	SIMSEK TOLACI S, erkan i, Diker F, Sahin A (2023). Evolution of interior space design criteria on the quality of urban environment: Literature review. , 258 - 285. 10.47818/DRArch.2023.v4i3097
Chicago	SIMSEK TOLACI SEDA,erkan ilker,Diker Fadime,Sahin Arzu Evolution of interior space design criteria on the quality of urban environment: Literature review. (2023): 258 - 285. 10.47818/DRArch.2023.v4i3097
MLA	SIMSEK TOLACI SEDA,erkan ilker,Diker Fadime,Sahin Arzu Evolution of interior space design criteria on the quality of urban environment: Literature review. , 2023, ss.258 - 285. 10.47818/DRArch.2023.v4i3097
AMA	SIMSEK TOLACI S,erkan i,Diker F,Sahin A Evolution of interior space design criteria on the quality of urban environment: Literature review. . 2023; 258 - 285. 10.47818/DRArch.2023.v4i3097
Vancouver	SIMSEK TOLACI S,erkan i,Diker F,Sahin A Evolution of interior space design criteria on the quality of urban environment: Literature review. . 2023; 258 - 285. 10.47818/DRArch.2023.v4i3097
IEEE	SIMSEK TOLACI S,erkan i,Diker F,Sahin A "Evolution of interior space design criteria on the quality of urban environment: Literature review." , ss.258 - 285, 2023. 10.47818/DRArch.2023.v4i3097
ISNAD	SIMSEK TOLACI, SEDA vd. "Evolution of interior space design criteria on the quality of urban environment: Literature review". (2023), 258-285. https://doi.org/10.47818/DRArch.2023.v4i3097

APA	SIMSEK TOLACI S, erkan i, Diker F, Sahin A (2023). Evolution of interior space design criteria on the quality of urban environment: Literature review. Journal of Design for Resilience in Architecture and Planning, 4(3), 258 - 285. 10.47818/DRArch.2023.v4i3097
Chicago	SIMSEK TOLACI SEDA,erkan ilker,Diker Fadime,Sahin Arzu Evolution of interior space design criteria on the quality of urban environment: Literature review. Journal of Design for Resilience in Architecture and Planning 4, no.3 (2023): 258 - 285. 10.47818/DRArch.2023.v4i3097
MLA	SIMSEK TOLACI SEDA,erkan ilker,Diker Fadime,Sahin Arzu Evolution of interior space design criteria on the quality of urban environment: Literature review. Journal of Design for Resilience in Architecture and Planning, vol.4, no.3, 2023, ss.258 - 285. 10.47818/DRArch.2023.v4i3097
AMA	SIMSEK TOLACI S,erkan i,Diker F,Sahin A Evolution of interior space design criteria on the quality of urban environment: Literature review. Journal of Design for Resilience in Architecture and Planning. 2023; 4(3): 258 - 285. 10.47818/DRArch.2023.v4i3097
Vancouver	SIMSEK TOLACI S,erkan i,Diker F,Sahin A Evolution of interior space design criteria on the quality of urban environment: Literature review. Journal of Design for Resilience in Architecture and Planning. 2023; 4(3): 258 - 285. 10.47818/DRArch.2023.v4i3097
IEEE	SIMSEK TOLACI S,erkan i,Diker F,Sahin A "Evolution of interior space design criteria on the quality of urban environment: Literature review." Journal of Design for Resilience in Architecture and Planning, 4, ss.258 - 285, 2023. 10.47818/DRArch.2023.v4i3097
ISNAD	SIMSEK TOLACI, SEDA vd. "Evolution of interior space design criteria on the quality of urban environment: Literature review". Journal of Design for Resilience in Architecture and Planning 4/3 (2023), 258-285. https://doi.org/10.47818/DRArch.2023.v4i3097