JIEIE
Journal of the Korean Institute of Illuminating
and Electrical Installation Engineers
KIIEE
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ISSN : 1229-4691 (Print)
ISSN : 2287-5034 (Online)
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Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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J Korean Inst. IIIum. Electr. Install. Eng.
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2025-08
(Vol.39 No.4)
10.5207/JIEIE.2025.39.4.249
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References
1
National Institute of Environmental Research and Environmental Health Research, “Korean exposure factors handbook,” National Institute of Environmental Research, 2019.
2
N. Klepeis, et al., “The national human activity pattern survey (NHAPS): A resource for assessing exposure to environmental pollutants,” Journal of Exposure Science & Environmental Epidemiology, vol. 11, no. 3, pp. 231-252, 2001.
3
Y. A. W. de Kort, “Tutorial: Theoretical considerations when planning research on human factors in lighting,” LEUKOS, vol. 15, no. 2–3, pp. 85–96, 2019.
4
K. W. Houser and T. Esposito, “Human-centric lighting: Foundational considerations and a five-step design process,” Frontiers in Neurology, vol. 12, p. 630553, 2021.
5
NICE D&B and J. Shin, “Smart lighting: Active lighting system with ICT technology,” Korea IR Association, 2021.
6
A. Shankar, K. Vijayakumar, and B. C. Babu, “Energy saving potential through artificial lighting system in PV integrated smart buildings,” Journal of Building Engineering, vol. 43, p. 103080, 2021.
7
G. Cimini, A. Freddi, G. Ippoliti, and A. Monteriu, “A smart lighting system for visual comfort and energy savings in industrial and domestic use,” Electric Power Components and Systems, vol. 43, no. 13, pp. 1456–1466, 2015.
8
A. Pramono, S. Nabillah, and D. M. Asnathasia, “Empowering the smart lighting system in the office rooms to enhance the worker's productivity,” in Proceedings of the 2022 IEEE International Conference on Cybernetics and Computational Intelligence, pp. 194-200, 2022.
9
M. Fuchtenhans and E. H. Grosse, “Literature review on smart lighting systems and their application in industrial settings,” in Proceedings of the 2019 6th International Conference on Industrial Engineering and Applications, pp. 144-149, 2019.
10
J. D. Gleason and M. Oishi, “Smart lighting clinical testbed pilot study on circadian phase advancement,” IEEE Journal of Biomedical and Health Informatics, vol. 23, no. 4, pp. 1552-1559, 2019.
11
Y. S. Kim and S. Y. Kwon, “Smartphone-based wavelength control LED lighting system according to occupant sleep-wake cycle,” Korean Society for Internet Information, vol. 17, no. 1, pp. 35-45, 2016.
12
Y. Cho, et al., “Platform design for lifelog-based smart lighting control,” Building and Environment, vol. 185, p. 107267, 2020.
13
M. Di Nicolantonio, E. Rossi, A. Deli, and A. Marano, “The human-centric lighting approach for the design of age-friendly products,” Theoretical Issues in Ergonomics Science, vol. 21, no. 6, pp. 753-772, 2020.
14
T. Ru, et al., “Temporal tuning of illuminance and spectrum: Effect of a full-day dynamic lighting pattern on well-being, performance, and sleep in a simulated office environment,” Building and Environment, vol. 228, p. 109842, 2023.
15
Martin Lighting, “MAC Allure Profile,” [online]. Available: https://www.martin.com/en/products/mac-allure-profile. (Accessed 16 August 2024)
16
ETC, “Source Four LED Series,” [online]. Available:https://www.etcconnect.com/Products/Entertainment-Fixtures/ (Accessed 16 August 2024)
17
Robe Lighting, “RoboSpot,” [online]. Available:https://www.robe.cz/robospot (Accessed 16 August 2024)
18
ERCO, “Track and singlets,” [online]. Available: https://www.erco.com/en/products/indoor/track-and-singlets/(Accessed 16 August 2024)
19
Iguzzini, “Track Shaping performance,” [online]. Available: https://www.iguzzini.com/tack-indoor-spotlight-shaping-performance/ (Accessed 16 August 2024)
20
Personal Robots Group, “An adaptive robotic lighting assistatnt for fluent teamwork,” [online]. Available:https://robots.media.mit.edu/portfolio/aur/ (Accessed 27 August 2024)
21
Adam Ben-Dror, “Pinokio,” [online]. Available:https://www.ben-dror.com/index.php/projects/pinokio/ (Accessed 27 August 2024)
22
WeRoBot, “Werobot Pino Lamp:Intelligent Robot Auto Tracking Lamp,” [online]. Available:https://www.kickstarter.com/projects/450423506/werobot-pino-lamp-intelligent-robot-auto-tracking-lamp (Accessed 29 August 2024)
23
Andrew Terranova, “This Adorable Robotic Pixar Lamp Recognizes Your Face,” [online]. Available:https://makezine.com/article/technology/robotics/pixar-robotic-desk-lamp/ (Accessed 29 August 2024)
24
Lucept, “More robotic desk lamps!,” [online]. Available:https://lucept.com/2014/01/10/more-robotic-desk-lamps/ (Accessed 29 August 2024)
25
J. P. Rolland and Hong Hua, “Head-mounted display systems,” inEncyclopedia of Optical Engineering(Editors: R. Barry Johnson and Ronald G. Driggers), New York, NY: Marcel Dekker, pp.1-13, 2005.
26
C. Stein, “Virtual reality design: How upcoming head-mounted displays change design paradigms of virtual reality worlds,” MediaTropes, vol. 6, no. 1, pp. 52-85, 2016.
27
M. Alaguero, D. Checa, and A. Bustillo, “Measuring the impact of low-cost short-term virtual reality on the user experience,” Augmented Reality, Virtual Reality, and Computer Graphic, pp. 320-336, 2017.
28
L. P. Soares, F. Pires, R. Varela, and R. Bastos, “Designing a highly immersive interactive environment: The virtual mine,” Computer Graphics Forum, vol. 29, no. 6, pp. 1756-1769, 2010.
29
T. Hilfert and M. Konig, “Low-cost virtual reality environment for engineering and construction,” Visualization in Engineering, vol. 4, no. 2, 2016.
30
C. E. Ochoa, M. B. C. Aries, and J. L. M. Hensen, “State of the art in lighting simulation for building science: A literature review,” Journal of Building Performance Simulation, vol. 5, no. 4, pp. 209-233, 2012.
31
M. Boyles, et al., “Virtual simulation for lighting & design education,” 2009 IEEE Virtual Reality Conference, pp. 275-276, 2009.
32
K. W. May, et al., “Examining VR technologies for immersive lighting performance simulation and visualization in building design and analysis,” 2023 IEEE Conference on Virtual Reality and 3D User Interfaces Abstracts and Workshops, pp. 913-914, 2023.
33
R. S. Wilson, “Sensory worlds: Emotional geography and human-centered design in 360° VR ethnographic videos,” Educational Media and Technology Yearbook, vol. 42, 2019.
34
Sejong University Industry-Academic Cooperation Team, “Lighting control system for controlling the illumination in response to the bed angle and method thereof,” KOR Patent, no. 10-1674868, 2016.
