Abstract
In this paper, a simple aircraft surface ice detection system is proposed based on multi-wavelength imaging. Its feasibility is proved by the experimental results. The influence of color coatings of aircraft surface is investigated. The results show that the ice area can be clearly distinguished from the red, white, gray and blue coatings painted aluminum plates. Due to the strong absorption, not enough signals can be detected for the black coatings. Thus, a deep research is needed. Even though, the results of this paper are helpful to the development of aircraft surface ice detection.
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References
Yihua Cao, Zhenlong Wu, Yuan Su and Zhongda Xu, Progress in Aerospace Sciences 74, 62 (2015).
Fikret Caliskan and Chingiz Hajiyev, Progress in Aerospace Sciences 60, 12 (2013).
Weimin Sang, Yu Shi and Chao Xi, Science China (Technological Sciences) 56, 2278 (2013).
Zhenjun Wang, Yuanming Xu and Yuting Gu, Energy 87, 173 (2015).
Bin Chen and Liwen Wang, Vibroengineering Procedia 2, 129 (2013).
Johnson Alexandria, Lasher-Trapp Sonia, Bansemer Aaron, Z. Ulanowski and Heymsfield Andrew, Journal of Atmospheric and Oceanic Technology 31, 1263 (2014).
Bassey C.E. and Vosecky T.R., Cylindrical Coplanar Waveguides (CCPW) for Ice Detection, USNC-URSI Radio Science Meeting (Joint with AP-S Symposium), 21 (2014).
Thomas Schlegl, Michael Moser and Hubert Zangl, Wireless and Flexible Ice Detection on Aircraft, SAE Technical Paper, 2015.
Yiqun Dong and Jianliang Ai, Aerospace Science and Technology 29, 305 (2013).
Fikret Caliskan and Chingiz Hajiyev, In-flight Detection and Identification and Accommodation of Aircraft Icing, AIP Conference Proceedings 1493, 200 (2012).
Jianhong Zou, Lin Ye and Junfeng Ge, Measurement Science & Technology 24, 035201 (2013).
Jianhong Zou, Lin Ye, Junfeng Ge and Chengrui Zhao, Measurement 46, 881 (2013).
Scott M. Terrace, Kimberlea D. Bender, Edmundo A. Sierra, Isabelle Marcil and Frank Eyre, Comparison of Human Ice Detection Capabilities and Ground Ice Detection System Performance under Post Deicing Conditions, Proceedings of the Human Factors and Ergonomics Society 50, 2051 (2006).
YANG Bo-zan, YANG Chun-mei, SA Yu, DING Jun-hua, LI Mei-hua, LIANG Xiao-hui, FENG Yuan-ming and HU Xin-Hua, Journal of Optoelectronics ·Laser 25, 2437 (2014). (in Chinese)
XU Dong-dong, FU Tian-jiao, ZHANG Yu, ZHANG Xing-xiang and REN Jian-yue, Journal of Optoelectronics ·Laser 26, 1200 (2015). (in Chinese)
XU Lin-li, LI Hong-ning, SUN Yu-yang, FENG Jie and YANG Wei-ping, Journal of Optoelectronics·Laser 25, 2234 (2014). (in Chinese)
Markham James, Cosgrove Joseph, Scire James, Haldeman Charles and Agoos Ian, Review of Scientific Instruments 85, 124902 (2014).
Fei Liu, Xiaopeng Shao, Pingli Han, Xiangli Bin and Cui Yang, Optical Engineering 53, 094101 (2014).
Ghani R. and Virk M.S., Wind Engineering 37, 71 (2013).
Ni Li, Zeya Su, Zheng Chen and Dong Han, OPTIK 124, 2885 (2013).
Coiro E., Journal of Aircraft 50, 103 (2013).
Hans G. Korth, Kody A. Wilson, Kevin C. Gross, Michael R. Hawks and Timothy W. C. Zens, Nondestructive Evaluation of Aircraft Coatings with Infrared Diffuse Reflectance Spectra, Proc. of SPIE 9485, 948503 (2015).
Ni Li, Zhenhua Lv, Shaodan Wang, Guanghong Gong and Lei Ren, Infrared Physics & Technology 71, 533 (2015).
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This work has been supported by the National Natural Science Foundation of China (No.61405246), the Foundation of Civil Aviation Administration of China (No.MHDR200809), and the Foundation of Civil Aviation University of China (No.2010QD02S).
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Zhuge, Jc., Yu, Zj., Gao, Js. et al. Influence of color coatings on aircraft surface ice detection based on multi-wavelength imaging. Optoelectron. Lett. 12, 144–147 (2016). https://doi.org/10.1007/s11801-016-5215-2
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DOI: https://doi.org/10.1007/s11801-016-5215-2