| 195 | 2 | 224 |
| 下载次数 | 被引频次 | 阅读次数 |
高频地波雷达(HFSWR)海面回波谱中包含海态信息,通常基于一阶谱和二阶谱特征信息分别建立拟合模型来反演有效波高,但是单独利用一阶和二阶谱信息来反演波高,会分别存在一阶谱能量饱和和二阶谱信噪比低的问题。本文基于集成在线顺序极限学习机(EOS-ELM)的方法,利用高频地波雷达数据,综合考虑一阶谱和二阶谱的特征信息来进行有效波高的反演。学习机能够有效选择一阶谱和二阶谱信息,使结果达到最优化,从而提高有效波高的反演精度。针对低海况的数据,本文通过分析确定波高分类阈值,将数据分段进行波高反演,进一步提高了波高反演的精度。
Abstract:The high frequency surface wave radar(HFSWR) sea surface echo spectrum contains sea state information. Usually, based on the first-order spectrum and second-order spectrum characteristic information, the fitting model is established to invert the significant wave height. However, if the first-order or second-order spectral information is used alone to invert the wave height, there is a problem that the first-order spectral energy saturation or second-order spectral signal-to-noise ratio is low. In this paper, the ensemble of online sequential extreme learning machine(EOS-ELM) is adopted to carry out significant wave height inversion by using the high frequency surface wave radar data and comprehensively utilizing the characteristic information of the first-order spectrum and the second-order spectrum. The learning machine can effectively select the first-order spectrum and the second-order spectrum information to optimize the result, and improve the inversion precision of effective wave height. Aiming at the data of low sea conditions, this paper determines the classification threshold of wave height through analysis, and the wave height inversion is performed on the data segment, and further improves the accuracy of wave height inversion.
[1] Green D,Gill E,Huang W.An inversion method for extraction of wind speed from high-frequency ground-wave radar oceanic backscatter[J].IEEE Transactions on Geoscience & Remote Sensing,2009,47(10):3338-3346.
[2] Barrick D E.Remote sensing of sea state by radar[C]//Ocean 72-IEEE International Conference on Engineering in the Ocean Environment.[s.n.]:IEEE,1972.
[3] Barrick D E.The ocean wave height nondirectional spectrum from inversion of the HF sea-echo Doppler spectrum[J].Remote Sensing of Environment,1977,6(3):201-227.
[4] Barrick D E.Extraction of wave parameters from measured HF radar sea-echo Doppler spectra[J].Radio Science,1977,12(3):415-424.
[5] Maresca J W,Georges T M.Measuring rms wave height and the scalar ocean wave spectrum with HF skywave radar[J].Journal of Geophysical Research Oceans,1980,85(C5):2759-2771.
[6] Heron M L,Dexter P E,McGann B T.Parameters of the air-sea interface by high-frequency ground-wave Doppler radar[J].Marine & Freshwater Research,1985,36(5):655-670.
[7] Heron S F,Heron M L.A comparison of algorithms for extracting significant wave height from HF radar ocean backscatter spectra[J].Journal of Atmospheric & Oceanic Technology,1998,15(5):1157-1163.
[8] 吴雄斌,李伦,李炎,等.高频地波雷达海面有效波高探测实验研究[J].海洋与湖沼,2012,43(2):210-216.WU Xiong-Bin,LI Lun,LI Yan,et al.Expermental research on significant woreheight detecting with HFSWR OSMAR071[J].Oceanologia et Limnologia Siniga,2012,43(2):210-216.
[9] Zhao C,Chen Z,Jiang Y,et al.Exploration and validation of wave-height measurement using multifrequen HF radar.[J].Journal of Atmospheric and Oceanic Technology,2013,30:2189-2202.
[10] Zhou H,Wen B.Observations of the second-harmonic peaks from the sea surface with high-frequency radars[J].IEEE Geoscience & Remote Sensing Letters,2014,11(10):1682-1686.
[11] Zhou H,Wen B.Wave height extraction from the first-order bragg peaks in high-frequency radars[J].IEEE Geoscience & Remote Sensing Letters,2015,12(11):2296-2300.
[12] Li Xiaodong,Yu Changjun,Su Fulin,et al.Significant wave height extraction using a low-frequency HFSWR system under low sea state[J].IET Radar,Sonar & Nacigation,2018,12(6):671-677.
[13] Shen W.Wind-speed inversion from HF radar first-order backscatter signal[J].Ocean Dynamics,2012,62(1):105-121.
[14] 楚晓亮,张晓愉,张荣真,等.基于一阶谱信息的单站高频地波雷达风速提取[J].中国海洋大学学报(自然科学版),2017,47(2):122-127.CHU Xiao-Liang,ZHANG Xiao-Yu,ZHANG Rong-Zhen,et al.Extraction of wind speed from first order spectrum of single high frequency surface wove radar[J].Periodical of Ocean University of China,2017,47(2):122-127.
[15] Zeng Y,Zhou H,Roarty H,et al.Wind speed inversion in high frequency radar based on neural network[J].International Journal of Antennas and Propagation,2016(1):1-8.
[16] Makarynskyy O.Improving wave predictions with artificial neural networks[J].Ocean Engineering,2004,31(5-6):709-724.
[17] Kumar N K,Savitha R,Mamun A A.Ocean wave height prediction using ensemble of extreme learning machine[J].Neurocomputing,2018,277:12-20.
[18] Huang G B,Zhu Q Y,Siew C K.Extreme learning machine:a new learning scheme of feedforward neural networks[J].Neural Networks,2004,2:985-990.
[19] Huang G B,Zhou H,Ding X,et al.Extreme learning machine for regression and multiclass classification[J].IEEE Transactions on Systems Man & Cybernetics Part B,2012,42(2):513-529.
[20] Liang N Y,Huang G B,Saratchandran P,et al.A fast and accurate online sequential learning algorithm for feedforward networks[J].IEEE Transactions on Neural Networks,2006,17(6):1411-1423.
[21] Lan Y,Soh Y C,Huang G B.Ensemble of online sequential extreme learning machine[J].Neurocomputing,2009,72(13):3391-3395.
基本信息:
DOI:10.16441/j.cnki.hdxb.20180312
中图分类号:P714
引用信息:
[1]张晓愉,楚晓亮,王曙曜.基于EOS-ELM的高频地波雷达有效波高反演[J],2019,49(S1):163-169.DOI:10.16441/j.cnki.hdxb.20180312.
基金信息:
国家重点研发计划“海洋环境安全专项”项目(2017YFC1405202);; 国家自然科学基金项目(61671166)资助~~