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http://dx.doi.org/10.4313/JKEM.2014.27.6.407

Optimal Design of Optical Filter Recognizing Financial Account with Multiple Attribute Using Analytic Hierarchy Process  

Yu, Hyeung Keun (Department of Industrial Engineering, Seoul National University of Science and Technology)
Lee, Kang Won (Department of Industrial Engineering, Seoul National University of Science and Technology)
Publication Information
Journal of the Korean Institute of Electrical and Electronic Material Engineers / v.27, no.6, 2014 , pp. 407-416 More about this Journal
Abstract
Five factors are identified, which affect the performance of optical filter: 1) type of optical glass, 2) existence of Fe, 3) photo pic coating type, 4) coating form, and 5) coating thickness. If we consider all the levels of five factors, there are 360 possible candidates. We determined five evaluation criteria, which can be used to evaluate possible candidates. For the performance measures we selected white-state avearge voltage, black-state average voltage, and black-state error rate. And we added economic criterion and quality and maintenance criterion. Through the two-step statistical analysis of white-state avearge voltage, black-state average voltage, and black-state error rates, we selected final four candidates. Based on the five criteria we finally determined optimal optical filter using AHP.
Keywords
Delphi; AHP (analytic hierarchy process); Black voltage; White voltage; HEA (high efficiency); VLR (value low reflector); VLRW (value low reflector wide);
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Times Cited By KSCI : 2  (Citation Analysis)
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1 B. H. Jeon, H. Y. Lee, Y. W. Lee, and H. G. Rhee, Korean Journal of Optical and Photonics, 19 (2008).
2 M. Mochizuki, H. Hayashi, T. Chiba, and K. Fukuda, Simulation of Semiconductor Processes and Devices, 2008. SISPAD 2008. International Conference (Hakone, 2008). p. 369.
3 X. Zhao, A. Bermak, and F. Boussaid, Biomedical Circuits and Systems Conference, 2008. BioCAS 2008. IEEE (Baltimore, 2008). p. 145.
4 H. J. Kim, Journal of Korean Oil Chemist' Society, 22, 77 (2005).
5 S. W Kim, C. S Cho, J. W Nam, B. H Kim, and J. H. Lee, J. IEEK, 47SD (2010).
6 H. Kim, Physics & High Technology (2005).
7 H. K. Yu and K. W. Lee, J. KIMME, 27, 61 (2014).
8 N. R. Kim and S. J. Joo, KIISS, 18 (2013).
9 S. H. Park and J. W. Kim, Modern Experiments Design (Minyoungsa, Korea, 2011).
10 T. L. Satty, Int. J. Services Science, 1, 1 (2008).
11 K. H. Park, H. S. Song, and J. Y. Won, Management Science (Kyobo Book, Korea, 2013) p. 407-418.
12 H. K. Yu and K. W. Lee, J. KIMME, 27, 328 (2014).
13 M. Hayama, IEEE Trans. Elec. Dev., 37, 1271 (1990).   DOI