ZEMCH 2019 International Conference Proceedings April.2020 | Page 185
5.
6.
7.
8.
9.
10.
Kwon, H.J.; Lee, K.H.; Lee, K.H. Optimized slat angle control algorithm prediction of venetian blind
depending on window orientation for energy saving. KIEAE Journal 2017, 17, 99‐106.
Yeon, S.; Yu, B.; Seo, B.; Yoon, Y.; Lee, K.H. ANN based automatic slat angle control of venetian blind for
minimized total load in an office building. Solar Energy 2019, 180, 133‐145.
Choi, D.Y.; Choi, M.S.; Kim, J.I.; Lee, B.H.; Lee, H.; Park, T.S.; Lee, G.H.; Seo, D.H.; Shin, S.Y.; Kim, H.J.; Kim,
S.H. The Energy Consumption Survey on Buildings; Korea Energy Economics Institute: Ulsan, South Korea,
2016; pp.153‐155
Jeong, Y.S.; Jung, H.K.; Jang, H.K.; Yu, K.H. A Study on the Reference Building based on the Building Design
Trends for Non‐residential Buildings. Journal of the Korean Solar Energy Society 2014, 34, 1‐11.
HunterDouglas
Architectural
‐
EXTERNAL
VENETIAN
BLINDS.
Available
online:
https://www.hunterdouglasarchitectural.eu/en‐RS/suncontrol/external‐venetian‐blinds/external‐venetian‐
blinds/index.jsp# (20.08.2019).
Korean Agency for Technology and Standards. RECOMMENDED LEVELS OF ILLUMINATION 2018
© 2019 by the authors. Submitted for possible open access publication under the terms
and conditions of the Creative Commons Attribution (CC BY) license
(http://creativecommons.org/licenses/by/4.0/).
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