Influence of color coatings on aircraft surface ice detection based on multi-wavelength imaging

Jing-chang Zhuge; Zhi-jing Yu; Jian-shu Gao; Da-chuan Zheng

doi:10.1007/s11801-016-5215-2

Optoelectronics Letters ›› , Vol. 12 ›› Issue (2) : 144-147. DOI: 10.1007/s11801-016-5215-2

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Influence of color coatings on aircraft surface ice detection based on multi-wavelength imaging

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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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Jing-chang Zhuge, Zhi-jing Yu, Jian-shu Gao, Da-chuan Zheng. Influence of color coatings on aircraft surface ice detection based on multi-wavelength imaging. Optoelectronics Letters, , 12(2): 144‒147 https://doi.org/10.1007/s11801-016-5215-2

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	CaoY., WuZ., SuY., XuZ.. Progress in Aerospace Sciences, 2015, 74: 62 CrossRef Google scholar

[2]	CaliskanF., HajiyevC.. Progress in Aerospace Sciences, 2013, 60: 12 CrossRef Google scholar

[3]	SangW., ShiY., XiC.. Science China (Technological Sciences), 2013, 56: 2278 CrossRef Google scholar

[4]	WangZ., XuY., GuY.. Energy, 2015, 87: 173 CrossRef Google scholar

[5]	ChenB., WangL.. Vibroengineering Procedia, 2013, 2: 129

[6]	AlexandriaJ., SoniaL.-T., AaronB., UlanowskiZ., AndrewH.. Journal of Atmospheric and Oceanic Technology, 2014, 31: 1263 CrossRef Google scholar

[7]	BasseyC.E., VoseckyT.R.. Cylindrical Coplanar Waveguides (CCPW) for Ice Detection, 2014, 21

[8]	SchleglT., MoserM., ZanglH.. Wireless and Flexible Ice Detection on Aircraft, 2015, CrossRef Google scholar

[9]	DongY., AiJ.. Aerospace Science and Technology, 2013, 29: 305 CrossRef Google scholar

[10]	CaliskanF., HajiyevC.. In-flight Detection and Identification and Accommodation of Aircraft Icing, AIP Conference Proceedings, 2012, 1493: 200

[11]	ZouJ., YeL., GeJ.. Measurement Science & Technology, 2013, 24: 035201 CrossRef Google scholar

[12]	ZouJ., YeL., GeJ., ZhaoC.. Measurement, 2013, 46: 881 CrossRef Google scholar

[13]	TerraceS. M., BenderK. D., SierraE. A.. Isabelle Marcil and Frank Eyre, 2006, 50: 2051

[14]	YangB.-z., YangC.-m., SaY., DingJ.-h., LiM.-h., LiangX.-h., FengY.-m., HuX.-H.. Journal of Optoelectronics ·Laser, 2014, 25: 2437

[15]	XuD.-d., FuT.-j., ZhangY., ZhangX.-x., RenJ.-y.. Journal of Optoelectronics ·Laser, 2015, 26: 1200

[16]	XuL.-l., LiH.-n., SunY.-y., FengJ., YangW.-p.. Journal of Optoelectronics·Laser, 2014, 25: 2234

[17]	JamesM., JosephC., JamesS., CharlesH., IanA.. Review of Scientific Instruments, 2014, 85: 124902 CrossRef Google scholar

[18]	LiuF., ShaoX., HanP., BinX., YangC.. Optical Engineering, 2014, 53: 094101 CrossRef Google scholar

[19]	GhaniR., VirkM.S.. Wind Engineering, 2013, 37: 71 CrossRef Google scholar

[20]	LiN., SuZ., ChenZ., HanD.. OPTIK, 2013, 124: 2885 CrossRef Google scholar

[21]	EC.. Journal of Aircraft, 2013, 50: 103 CrossRef Google scholar

[22]	KorthH. G., WilsonK. A., GrossK. C., HawksM. R., ZensT. W. C.. Nondestructive Evaluation of Aircraft Coatings with Infrared Diffuse Reflectance Spectra, Proc. of SPIE, 2015, 9485: 948503

[23]	LiN., LvZ., WangS., GongG., RenL.. Infrared Physics & Technology, 2015, 71: 533 CrossRef Google scholar

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).