참고문헌 (32)

1. Wang, Zhe, de Dear, Richard, Luo, Maohui, Lin, Borong, He, Yingdong, Ghahramani, Ali, Zhu, Yingxin. Individual difference in thermal comfort: A literature review. Building and environment, vol.138, 181-193.

   상세보기

2. Xie, Jiaqing, Li, Haoyang, Li, Chuting, Zhang, Jingsi, Luo, Maohui. Review on occupant-centric thermal comfort sensing, predicting, and controlling. Energy and buildings, vol.226, 110392-.

   상세보기

3. Brager, Gail S., de Dear, Richard J.. Thermal adaptation in the built environment: a literature review. Energy and buildings, vol.27, no.1, 83-96.

   상세보기

4. R. de Dear, G. S. Brager, Developing an adaptive model of thermal comfort and preference, 1998. 

5. Pang, Zhihong, Chen, Yan, Zhang, Jian, O'Neill, Zheng, Cheng, Hwakong, Dong, Bing. Nationwide HVAC energy-saving potential quantification for office buildings with occupant-centric controls in various climates. Applied energy, vol.279, 115727-.

   상세보기

6. Anand, Prashant, Sekhar, Chandra, Cheong, David, Santamouris, Mattheos, Kondepudi, Sekhar. Occupancy-based zone-level VAV system control implications on thermal comfort, ventilation, indoor air quality and building energy efficiency. Energy and buildings, vol.204, 109473-.

   상세보기

7. Choi, Eun Ji, Park, Bo Rang, Choi, Young Jae, Moon, Jin Woo. Development of a Human Pose Classifying Model to Estimate the Metabolic Rate of Occupant. KIEAE journal = 한국생태환경건축학회논문집, vol.18, no.5, 93-98.

   상세보기

8. Dong, Bing, Yan, Da, Li, Zhaoxuan, Jin, Yuan, Feng, Xiaohang, Fontenot, Hannah. Modeling occupancy and behavior for better building design and operation-A critical review. Building simulation, vol.11, no.5, 899-921.

   상세보기

9. Choi, Eun Ji, Cho, Hye Un, Cho, Ji Hyeon, Moon, Jin Woo. Analysis of Indoor Thermal Comfort reflecting Dynamic Clothing Insulation in diverse Climate Zone. KIEAE journal = 한국생태환경건축학회논문집, vol.20, no.5, 171-177.

   상세보기

10. O'Brien, William, Wagner, Andreas, Schweiker, Marcel, Mahdavi, Ardeshir, Day, Julia, Kjærgaard, Mikkel Baun, Carlucci, Salvatore, Dong, Bing, Tahmasebi, Farhang, Yan, Da, Hong, Tianzhen, Gunay, H. Burak, Nagy, Zoltan, Miller, Clayton, Berger, Christiane. Introducing IEA EBC annex 79: Key challenges and opportunities in the field of occupant-centric building design and operation. Building and environment, vol.178, 106738-.

    상세보기

11. Kim, Joyce, Zhou, Yuxun, Schiavon, Stefano, Raftery, Paul, Brager, Gail. Personal comfort models: Predicting individuals' thermal preference using occupant heating and cooling behavior and machine learning. Building and environment, vol.129, 96-106.

    상세보기

12. Kong, Meng, Dong, Bing, Zhang, Rongpeng, O'Neill, Zheng. HVAC energy savings, thermal comfort and air quality for occupant-centric control through a side-by-side experimental study. Applied energy, vol.306, no.no.pa, 117987-.

    상세보기

13. S. Lu, C. E. Hameen, A. Aziz, Dynamic hvac operations with real-time vision-based occupant recognition system, In 2018 ASHRAE Winter Conference, Chicago, 2018.01. 

14. P.O. Fanger, Thermal Comfort, McGraw-Hill, NY. 1972. 

15. ASHRAE, ANSI/ASHRAE Standard 55-2020, Thermal Environmental Conditions For Human Occupancy, Atlanta, GA, 2020. 

16. Zhong, Chen, Choi, Joon-Ho. Development of a Data-Driven Approach for Human-Based Environmental Control. Procedia engineering, vol.205, 1665-1671.

    상세보기

17. Choi, J.H., Loftness, V.. Investigation of human body skin temperatures as a bio-signal to indicate overall thermal sensations. Building and environment, vol.58, 258-269.

    상세보기

18. Ferreira, P.M., Ruano, A.E., Silva, S., Conceicao, E.Z.E.. Neural networks based predictive control for thermal comfort and energy savings in public buildings. Energy and buildings, vol.55, 238-251.

    상세보기

19. Sung, Wen-Tsai, Hsiao, Sung-Jung. The application of thermal comfort control based on Smart House System of IoT. Measurement : journal of the International Measurement Confederation, vol.149, 106997-.

    상세보기

20. Xu, Xinbo, Liu, Weiwei, Lian, Zhiwei. Dynamic indoor comfort temperature settings based on the variation in clothing insulation and its energy-saving potential for an air-conditioning system. Energy and buildings, vol.220, 110086-.

    상세보기

21. de Carvalho, P.M., da Silva, M.G., Ramos, J.E.. Influence of weather and indoor climate on clothing of occupants in naturally ventilated school buildings. Building and environment, vol.59, 38-46.

    상세보기

22. S. Schiavon, K.H. Lee, Predictive clothing insulation model based on outdoor air and indoor operative temperatures, In Proceedings of 7th Windsor Conference: The changing context of comfort in an unpredictable world , 1(1), 2012.12, pp.1-14. 

23. Lee, Kwang, Schiavon, Stefano. Influence of Three Dynamic Predictive Clothing Insulation Models on Building Energy Use, HVAC Sizing and Thermal Comfort. Energies, vol.7, no.4, 1917-1934.

    상세보기

24. 10.52842/conf.caadria.2018.1.565 S. Lu, E. Cochran Hameen, Integrated IR Vision Sensor for Online Clothing Insulation Measurement, 2018. 

    

25. Lee, Jeong-Hoon, Kim, Young-Keun, Kim, Kyung-Soo, Kim, Soohyun. Estimating Clothing Thermal Insulation Using an Infrared Camera. Sensors, vol.16, no.3, 341-.

    상세보기

26. Pavlin, Boris, Pernigotto, Giovanni, Cappelletti, Francesca, Bison, Paolo, Vidoni, Renato, Gasparella, Andrea. Real-Time Monitoring of Occupants’ Thermal Comfort through Infrared Imaging: A Preliminary Study. Buildings, vol.7, no.1, 10-.

    상세보기

27. H. Matsumoto, Y. Iwai, H. Ishiguro, Estimation of Thermal Comfort by Measuring Clo Value without Contact, In MVA, 2011.06, pp.491-494. 

28. Choi, Haneul, Na, HooSeung, Kim, Taehung, Kim, Taeyeon. Vision-based estimation of clothing insulation for building control: A case study of residential buildings. Building and environment, vol.202, 108036-.

    상세보기

29. G. Jocher et al., YOLOv5, https://github.com/ultralytics/yolov5, 2020, Accessed 06 Dec 2021. 

30. ISO, ISO 9920:2007, Ergonomics of the thermal environment - Estimation of thermal insulation and water vapour resistance of a clothing ensemble, 2007.