Oil Thickness Estimation Using Single- and Dual- Frequency Maximum-Likelihood Approach

2018 International Conference on High Performance Computing & Simulation (HPCS) Pub Date : 2018-07-01 DOI:10.1109/HPCS.2018.00025

Bilal Hammoud, H. Ayad, M. Fadlallah, J. Jomaah, F. Ndagijimana, G. Faour

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引用次数: 5

Abstract

In this paper, we present Maximum Likelihood single- and dual-frequency estimators for oil spill thickness estimation. The estimators use Minimum-Euclidean distance algorithm, in pre-defined 1-D or 2-D constellation sets, on simulated reflectivities to estimate the thickness of the oil on top of sea surface. Results show that the performance of the estimator is dependent on the radar frequency used and on the real thickness level. The steep slope of the reflectivity at some frequencies allows accurate estimation in some thickness ranges but it can cause significant errors in other ranges due to its periodicity. The monotonic behavior of the reflectivity at other frequencies lead to a less accurate estimation but smaller error range. Performance analysis of the dual-frequency estimator shows that it overcomes the drawbacks of each single-frequency estimator by taking the advantages of the monotonicity at the first frequency and the steepness of the slope of the reflectivity at the second frequency.

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单频和双频最大似然法估计油层厚度

在本文中，我们提出了溢油厚度估计的最大似然单频和双频估计。估算器使用最小欧氏距离算法，在预定义的1-D或2-D星座集合中，对模拟反射率进行估算，以估计海面上石油的厚度。结果表明，该估计器的性能与所用雷达频率和实际厚度水平有关。反射率在某些频率上的陡峭斜率允许在某些厚度范围内进行精确估计，但由于其周期性，在其他范围内可能会导致显着误差。由于反射率在其他频率上的单调性，估计精度较低，但误差范围较小。对双频估计器的性能分析表明，该估计器利用了第一频率单调性和第二频率反射率斜率陡峭性的优点，克服了各种单频估计器的缺点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2018 International Conference on High Performance Computing & Simulation (HPCS)

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