Characteristics Detection Method for Material Surface Based on Polarization Vision Information

Rong Hua Li; Bao Zhang Qu; Feng Xiang Zhai; Ying Zhou

doi:10.4028/www.scientific.net/AMR.1006-1007.747

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1006-1007Characteristics Detection Method for Material...

Characteristics Detection Method for Material Surface Based on Polarization Vision Information

Abstract:

Comparing to ordinary light intensity measurements, polarization measurements have many advantages in studying the surface，atmosphere and exploring space. In order to obtain high-quality polarization information, the paper designs a three-channel synchronous acquisition device. It researches the feasibility of obtaining the characteristics information of material surface by polarization vision. It respectively measures the leaves, automobiles, cement wall these three samples’ reflected light’s polarization characteristics using the method of getting Stokes parameters. The experimental results show that the polarization characteristics have a great relationship with the characteristics of target, the measurement wavelength and the viewing angle. The method mentioned in this paper is vital to achieving material surface characteristics. At the same time , it provides a new way for geology and mineral resources exploration.

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Periodical:

Advanced Materials Research (Volumes 1006-1007)

Pages:

747-751

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1006-1007.747

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Online since:

August 2014

Authors:

Rong Hua Li*, Bao Zhang Qu, Feng Xiang Zhai, Ying Zhou

Keywords:

Material Characteristics, Polarization Vision, Stokes Vector

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References

[1] Songxin T, Narayanan Ram M. Design and performance of a multi-wavelength aivborne polarimetric lidar for vegetation remote sensing[J]. Applied Optics, 2004, 43: 2675-2677.

Google Scholar

[2] Jinkui Chu, Kaichun Zhao. Study of Angle Measurement Optoelectronic Model on Emulating Polarization-Sensitive Compound Eye of Insect[J]. Naoelectronic Device & Technology, 2005，12：541-545. （In Chinese）.

Google Scholar

[3] Na Zhang , Jinkui Chu , Kaichun Zhao , Fantao Meng . The Design of The Subwavelength Wire Grid Polarizers Based on Rigorous Couple Wave Theory[J]. Chinese Journal of Sensors and Actuators, 2006, 19(5)：1739-1743. （In Chinese）.

DOI: 10.1109/nano.2007.4601339

Google Scholar

[4] Lianghai Wu, Jun Gao, Zhiguo Fan. Implementation and Analysis of an atmosphere of polarization information detection algorithm[J]. Chinese Journal of Scientific Instrument, 2009, 30(6)：102-105. （In Chinese）.

Google Scholar

[5] Zhiguo Fan, Jun Gao, Jingmin Wei. Investigation of atmospheric polarization information measurement method imitation POL-neurons of cataglyphis[J]. Chinese Journal Sicentific Instrument, 2008, 29(4)：745-749. （In Chinese）.

Google Scholar

[6] Jing Liu, Runqiu Xia, Weiqi Jin. Review of Imaging Polarimetry Based on Stokes Vector[J]. Optical Technique, 2013, 39(1). （In Chinese）.

Google Scholar

[7] Xiaobing Sun, Yanli Qiao, HongJin. Review of Polarization Remote Sensing Techniques and Applications in The Visible and Infrared[J]. Journal of Atmospheric and Environment Optics, 2010, 5(3)：175-189. （In Chinese）.

Google Scholar

[8] Canjun Xu , Jinsong Zhao, Caiyi. Several Schemes of Infrared Polarization Imaging[J]. Infrared Technology, 2009, 31(5)：262-266. （In Chinese）.

Google Scholar

[9] Zhihua Shi . Imaging polarimetry technique and its application[J]. Infrared, 2002, 4: 1-5. （In Chinese）.

Google Scholar

[10] Libing Liu , Rencheng Jin , Kaichun Zhao. Study of Bionic Test System For Polarized Light Based on ARM[J]. Chinese Journal of Sensors and Actuators, 2006, 19(5)：1788-1791. （In Chinese）.

Google Scholar

[11] S. Shibata, T. Onuma, Y. Otani. Realtime Birefringence Mapping by Polarization Camera[C]. International Symposium on Optomechatronic Technologies, Paris, France, 2012: 1-2.

DOI: 10.1109/isot.2012.6403283

Google Scholar

[12] Y. Horita, K. Shibata, K. Maeda. Omni-directional Polarization Image Sensor Based on an Omni-directional Camera and a Polarization Filter[C]. Proceedings of IEEE 6th International Conference on Advanced Video and Signal Based Surveillance, Genoa, Italy, 2009: 280-285.

DOI: 10.1109/avss.2009.75

Google Scholar

[13] Y. Cui, N.N. Cao, J.K. Chu. Design of Skylight Polarization Measurement System[J]. Optics and Precision Engineering, 2009, 17(6): 1431-1435. （In Chinese）.

Google Scholar