OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

中国科学地球科学中国科学地球科学 2014

基于分数Weierstrass散射模型的海面漏油区域表面浮油的原油权重因子估计

, PP. 2328-2338

李洋,陶然,盛新庆

Keywords: 漏油,无人载机合成孔径雷达,深水地平线钻井平台,分数Weierstrass散射模型

Full-Text Cite this paper Add to My Lib

Abstract:

？海洋原油泄漏过程中，原油在海洋表面会发生乳化反应，形成油水乳化物.原油所占的油水乳化物体积的权重因子是海面漏油监控中的一个非常重要的参数.基于二维分数Weierstrass散射模型和全极化SAR数据，提出了海面漏油区域表面浮油的原油权重因子的估计方法.利用所提出的估计方法，分析了2010年4月20日美国墨西哥湾“深水地平线”钻井平台漏油事件中的无人载机合成孔径雷达L波段的全极化数据.分析和比较的结果表明所提出的原油权重因子估计方法是准确的和有效的.

References

[1]	Broschat S L. 1993. The phase perturbation approximation for rough surface scattering from a Pierson-Moskowitz sea surface. IEEE Trans Geosci Remote Sensing, 31: 278-283
[2]	Berizzi F, Mese E D. 2002. Scattering coefficient evaluation from a two-dimensional sea fractal surface. IEEE Trans Antennas Propag, 50: 426-434
[3]	Berizzi F, Mese E D. 2002. Scattering from a 2D sea fractal surface: Fractal analysis of the scattered signal. IEEE Trans Antennas Propag, 50: 912-925
[4]	Berizzi F, Dalle Mese E, Pinelli G. 1999. One-dimensional fractal model of the sea surface. IEE Proceedings-Radar, Sonar and Navigation, 146: 55
[5]	Chen J, Lo T K Y, Leung H, et al. 1996. The use of fractals for modeling EM waves scattering from rough sea surface. IEEE Trans Geosci Remote Sensing, 34: 966-972
[6]	Fingas M. 1995. Water-in-oil emulsion formation: A review of physics and mathematical modelling. Spill Sci Technol Bull, 2: 55-59
[7]	Franceschetti G, Iodice A, Riccio D, et al. 2005. Extended boundary condition method for scattering and emission from natural surfaces modeled by fractals. IEEE Trans Geosci Remote Sensing, 43: 1115-1125
[8]	Tao R, Li Y, Bai X, et al. 2012. Fractional weierstrass model for rough ocean surface and analytical derivation of its scattered field in a closed form. IEEE Trans Geosci Remote Sensing, 50: 3627-3639
[9]	Franceschetti G, Riccio D. 2006. Scattering, Natural Surfaces, and Fractals. Amsterdan: Elsevier. 1-289
[10]	Jaggard D L, Sun X. 1990. Scattering from fractally corrugated surfaces. JOSA A, 7: 1131-1139
[11]	Jones C E, Minchew B, Holt B, et al. 2011a. Studies of the Deepwater Horizon oil spill with the UAVSAR radar. Geophys Monograph Ser, 195: 33-50
[12]	Jones C, Minchew B, Holt B. 2011b. Polarimetric decomposition analysis of the Deepwater Horizon oil slick using L-band UAVSAR data. IEEE Inter Geosci Remote Sensing Symposium (IGARSS). 2278-2281
[13]	Liu P, Li X, Qu J J, et al. 2011. Oil spill detection with fully polarimetric UAVSAR data. Mar Pollut Bull, 62: 2611-2618
[14]	Minchew B, Jones C E, Holt B. 2012a. Polarimetric analysis of backscatter from the deepwater horizon oil spill using L-band synthetic aperture radar. IEEE Trans Geosci Remote Sensing, 50: 3627-3639
[15]	Minchew B. 2012b. Determining the mixing of oil and sea water using polarimetric synthetic aperture radar. Geophys Res Lett, 39: Art No. L16607
[16]	Mandelbrot B B. 1983. The Fractal Geometry of Nature. New York: W H Freman and Company. 1-466
[17]	Pierson Jr W J, Moskowitz L. 1964. A proposed spectral form for fully developed wind seas based on the similarity theory of SA Kitaigorodskii. J Geophys Res, 69: 5181-5190
[18]	Ruello G, Blanco-Sanchez P, Iodice A, et al. 2006. Synthesis, construction, and validation of a fractal surface. IEEE Trans Geosci Remote Sensing, 44: 1403-1412

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133