Zhibin Wu & Andreas Wagner. (2024) Thermal comfort of students in naturally ventilated secondary schools in countryside of hot summer cold winter zone, China. Energy and Buildings 305, pages 113891.
Crossref
Brett Munckton & Priyadarsini Rajagopalan. (2024) Interaction between Thermal Conditions and Ventilation in Kindergartens in Melbourne, Australia. Sustainability 16:3, pages 1186.
Crossref
Seda Şimşek, İlker Erkan, Fadime Diker & Arzu Şahin. (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, pages 258-285.
Crossref
Sasan Sadrizadeh, Runming Yao, Feng Yuan, Hazim Awbi, William Bahnfleth, Yang Bi, Guangyu Cao, Cristiana Croitoru, Richard de Dear, Fariborz Haghighat, Prashant Kumar, Mojtaba Malayeri, Fuzhan Nasiri, Mathilde Ruud, Parastoo Sadeghian, Pawel Wargocki, Jing Xiong, Wei Yu & Baizhan Li. (2022) Indoor air quality and health in schools: A critical review for developing the roadmap for the future school environment. Journal of Building Engineering 57, pages 104908.
Crossref
Jongseong Gwak, Yuzuru Yoshinami, Akinari Hirao & Motoki Shino. (2022) Repeated Thermal Stimulation by Cabin Temperature for Keeping Arousal and Thermal Comfort of Driver. International Journal of Automotive Engineering 13:2, pages 83-88.
Crossref
Naoki Matsubara. (2022) Changes and Issues in Research on the Evaluation of the Indoor Thermal Environment of Houses in Japan from the Viewpoint of a Warmth-Preservation Lifestyle. Journal of the Human-Environment System 25:1, pages 1-16.
Crossref
Chryssa Thoua, Elizabeth Cooper, Samuel Stamp, Anna Mavrogianni & Dejan Mumovic. 2022. Handbook of Indoor Air Quality. Handbook of Indoor Air Quality
1891
1933
.
David P. Wyon. 2022. Handbook of Indoor Air Quality. Handbook of Indoor Air Quality
1371
1396
.
Chryssa Thoua, Elizabeth Cooper, Samuel Stamp, Anna Mavrogianni & Dejan Mumovic. 2021. Handbook of Indoor Air Quality. Handbook of Indoor Air Quality
1
43
.
David P. Wyon. 2021. Handbook of Indoor Air Quality. Handbook of Indoor Air Quality
1
26
.
Riryo SHIMADAAkira GASSHONaoki MATSUBARA. (2019) COMPARISON BETWEEN THE IMPRESSION OF HOT-COLD, WARM-COOL, AND COMPREHENSIVE COMFORTABLENESS ON THE EVALUATION OF AN EXPERIMENTAL COMBINED ENVIRONMENT複合環境評価研究における「寒暑の印象」「涼暖の印象」と総合快適感の関係. Journal of Environmental Engineering (Transactions of AIJ) 84:766, pages 1041-1050.
Crossref
Angui Li & Risto KosonenAngui Li & Risto Kosonen. 2019. Kitchen Pollutants Control and Ventilation. Kitchen Pollutants Control and Ventilation
151
190
.
Soo-young Bhang, Jaekook Yoon, Joohyun Sung, Cheolin Yoo, Changsun Sim, Changmyung Lee, Jaewon Lee & Jiho Lee. (2018) Comparing Attention and Cognitive Function in School Children across Noise Conditions: A Quasi-Experimental Study. Psychiatry Investigation 15:6, pages 620-627.
Crossref
Ana Uzelac, Nenad Gligorić & Srđan Krčo. (2018) System for recognizing lecture quality based on analysis of physical parameters. Telematics and Informatics 35:3, pages 579-594.
Crossref
Philomena M. Bluyssen. (2016) Health, comfort and performance of children in classrooms – New directions for research. Indoor and Built Environment 26:8, pages 1040-1050.
Crossref
Pawel Wargocki & David P. Wyon. (2017) Ten questions concerning thermal and indoor air quality effects on the performance of office work and schoolwork. Building and Environment 112, pages 359-366.
Crossref
Ana Uzelac, Nenad Gligoric & Srdjan Krco. (2015) A comprehensive study of parameters in physical environment that impact students’ focus during lecture using Internet of Things. Computers in Human Behavior 53, pages 427-434.
Crossref
Ken Parsons. 2014. Human Thermal Environments. Human Thermal Environments
426
447
.
Yuka Takai, Akihiko Goto, Ken-ichi TakaoNoriaki Kuwahara & Hiroyuki Hamada. (2013) A Pilot Study Investigating the Impact of Indoor Wall Construction on Performance during Long Monotonous Work. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 57:1, pages 516-520.
Crossref
Pawel Wargocki & David P. Wyon. (2013) Providing better thermal and air quality conditions in school classrooms would be cost-effective. Building and Environment 59, pages 581-589.
Crossref
Dominique Hes. 2013. Reshaping Environments. Reshaping Environments
139
166
.
Yuki YANAI, Toshiharu IKAGA & Shun KAWAKUBO. (2012) A FIELD SURVEY OF CLASSROOM ENVIRONMENTAL QUALITY IN TERMS OF STUDENTS' PHYSICAL CONDITIONS AND CONCENTRATION. Journal of Environmental Engineering (Transactions of AIJ) 77:676, pages 533-539.
Crossref
Despoina Teli, Mark F. Jentsch, Patrick A.B. James & AbuBakr S. Bahaj. Overheating Risk Evaluation of School Classrooms. Overheating Risk Evaluation of School Classrooms.
Mine SUDO, Kazuhide ITO, Hideyuki SASAKI, Go IWASHITA, Kanako UENO, Kiyoshi HIWATASHI, Tetsu NAKAE & Tomonobu GOTO. (2011) THE EFFECT OF ACADEMIC PERFORMANCE ON CLASSROOM ENVIRONMENT FOR JUNIOR HIGH SCHOOL STUDENTS. Journal of Environmental Engineering (Transactions of AIJ) 76:660, pages 201-209.
Crossref
Sohei TSUJIMURA & Kanako UENO. (2010) EFFECT OF SOUND ENVIRONMENT ON LEARNING EFFICIENCY IN CLASSROOMS. Journal of Environmental Engineering (Transactions of AIJ) 75:653, pages 561-568.
Crossref
Taemi GOHARA & Go IWASHITA. (2003) DISCUSSION OF RELATIONSHIP BETWEEN INDOOR ENVIRONMENTAL COMFORT AND PERFORMANCE IN SIMPLE TASK : The influence of arousal caused by room temperature and scent on the performance. Journal of Environmental Engineering (Transactions of AIJ) 68:572, pages 75-80.
Crossref
K Parson. 2002. Human Thermal Environments. Human Thermal Environments.
Ken A. Graetz & Michael J. Goliber. (2003) Designing collaborative learning places: Psychological foundations and new frontiers. New Directions for Teaching and Learning 2002:92, pages 13-22.
Crossref
Jerry D. Ramsey & Yeong G. Kwon. (1992) Recommended alert limits for perceptual motor loss in hot environments. International Journal of Industrial Ergonomics 9:3, pages 245-257.
Crossref
S. HYGGE. 1992. The Physical Environment. The Physical Environment
79
104
.
Staffan Hygge. (1991) The interaction of noise and mild heat on cognitive performance and serial reaction time. Environment International 17:4, pages 229-234.
Crossref
Tommy Gärling. (1982) Swedish environmental psychology. Journal of Environmental Psychology 2:3, pages 233-251.
Crossref
Paul A. Bell. (2010) Physiological, Comfort, Performance, and Social Effects of Heat Stress. Journal of Social Issues 37:1, pages 71-94.
Crossref
E. C. Poulton. 1981. Psychology and Industrial Productivity. Psychology and Industrial Productivity
309
323
.
William C. Howell & Pamela A. Kennedy. (2016) Field Validation of the Fanger Thermal Comfort Model. Human Factors: The Journal of the Human Factors and Ergonomics Society 21:2, pages 229-239.
Crossref
Adrian M. Ostfeld & David A. D'Atri. (1995) Psychophysiological Responses to the Urban Environment. The International Journal of Psychiatry in Medicine 6:1-2, pages 15-28.
Crossref
D. Whitfield. (1972) Ergonomics in action—5 Applied Psychology Department, University of Aston in Birmingham. Applied Ergonomics 3:3, pages 155-160.
Crossref
D. P. Wyon, I. Andersen & G. R. Lundqvist. (2009) Spontaneous magnitude estimation of thermal discomfort during changes in the ambient temperature. Journal of Hygiene 70:2, pages 203-221.
Crossref
E.C. Poulton. (1972) The environment at work. Applied Ergonomics 3:1, pages 24-29.
Crossref