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Novel Empirical Orthogonal Function (EOF)-Based Methodology to Study the Internal Wave Effects on Acoustic Propagation

机译：基于新的经验正交函数（EOF）方法研究内波对声传播的影响

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This paper presents a novel approach to synthesize realistic environment for ocean-acoustic parametric studies. In its current form, this methodology applies to internal waves and tides. Empirical orthogonal function (EOF) decomposition is applied to a temporal series of temperature profiles. It can be observed that the first two time-dependent expansion coefficients are dynamically linked. When they are plotted one versus another in a scatter diagram, the cloud of points consists of a crescent shape that can easily be represented by a polynomial fit. If the first two expansion coefficients capture enough variability in the temperature profiles, the EOF modes plus the polynomial can be used to reconstruct temperature profiles independently from the set of data. This realistic synthesized environment can then be input to acoustic propagation models. This approach is applied to the case of the Messina Strait in which internal waves are known to be intensive. From a short- term series of temperature profiles collected on a thermistor string, range- dependent profiles along and across the strait are reconstructed. The acoustical impact study is conducted with the range-dependent acoustic model (RAM) parabolic equation (PE) model. The methodology presented in this paper is simple to run and requires a very affordable set of data. It could be used as an efficient alternative to ocean and acoustic model coupling for process studies or for regional studies especially in poorly known areas or highly variable areas, where it is difficult to obtain good sound-speed profile prediction from ocean models.

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Casagrande, G.; Stephan, Y.; Warn Varnas, A. C.; Folegot, T.;
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年度 2011
页码 1-16
总页数 16
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Internal waves ; Acoustics ; Functions(Mathematics) ; Ocean models ; Orthogonality ; Reprints ; Temperature;

机译：内部波;声学;功能（数学）;海洋模型;正交性;重印;温度;

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1. A Novel Empirical Orthogonal Function (EOF)-Based Methodology to Study the Internal Wave Effects on Acoustic Propagation [J] . Casagrande G., Stephan Y., Warn Varnas A. C., Oceanic Engineering, IEEE Journal of . 2011,第4期

机译：基于新的基于经验正交函数（EOF）的方法，研究内部波对声传播的影响
2. Empirical Orthogonal Function (EOF) analysis of monsoon rainfall and satellite-observed outgoing long-wave radiation for Indian monsoon: a comparative study [J] . C. V. Singh Meteorology and Atmospheric Physics . 2004,第4期

机译：印度季风季风降水和卫星观测的长波辐射的经验正交函数（EOF）分析：一项比较研究
3. Empirical Orthogonal Function (EOF) analysis of monsoon rainfall and satellite-observed outgoing long-wave radiation for Indian monsoon: a comparative study [J] . C. V. Singh Meteorology and Atmospheric Physics . 2004,第4期

机译：印度季风的季风降水和卫星观测的长波辐射的经验正交函数（EOF）分析：一项比较研究
4. Short-term Precipitation forecasting with Wavelet-based Empirical Orthogonal Function and Artificial Neural Network (WEOF-ANN) Model [C] . SANAZ IMEN, NI-BIN CHANG, Y.JEFFREY YANG International Conference on Hydroinformatics . 2014

机译：基于小波经验正交函数和人工神经网络（WEOF-ANN）模型的短期降水预测
5. Understanding the Variability in Thermospheric Nitric Oxide Flux Using Empirical Orthogonal Functions (EOFs) [D] . Flynn, Sierra Mae. 2017

机译：理解使用经验正交功能（EOF）的热散氧化氮通量的可变性
6. Bearing Fault Detection Based on Empirical Wavelet Transform and Correlated Kurtosis by Acoustic Emission [O] . Zheyu Gao, Jing Lin, Xiufeng Wang, 2017

机译：基于经验小波变换和相关峰度的声发射轴承故障检测
7. RAFAL: RANDOM FACED ACOUSTIC LENS USED TO MODEL INTERNAL WAVES EFFECTS ON UNDERWATER ACOUSTIC PROPAGATION [O] . Real Gaultier, Cristol Xavier, Habault Dominique, 2015

机译：RAFAL：随机面对声透镜，用于模拟内部波对水下声传播的影响

Novel Empirical Orthogonal Function (EOF)-Based Methodology to Study the Internal Wave Effects on Acoustic Propagation

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