based on the noise mechanism of the marine environment and the research results of wind turn-off noise , proposed sea surface wind inversion using spaceborne microwave scattering meter field data for marine ambient noise analysis , and HY -2 A and ascat The correlation between the data and the noise spectral level is analyzed by contrast . Select South China Sea as research area , Using the noise data obtained by the latent-scale measurement system and the wind field data of the multi-source scattering meter, the relevant real check is implemented. and compare analysis with NCEP Sea Wind field data . results show ,ascat The correlation between data and noise is better than HY-2A , Scatter-meter data is better than NCEP Data , scattering meter wind field more suitable for analysis of marine environmental noise . This research expands the application field of the microwave Scatter meter wind field data , and provides better technical means for marine environmental noise Research .

wens G M. Acoustic ambient noise in the ocean : spectra and Sources[j]. The Journal of the Acoustical Society of America, 1962, (a) :1936- /b15>1952.

Dietz F T, Kahn J S, Birch W Effect of wind on shallow water ambient noise[j]. The Journal of Acoustical Society of America, I960,(7) : 915.

Piggott C L. Ambient sea noise at low frequencies in shallow water of Scotian J]. The Journal of the Acoustical Society of America,1964 (): 2152-2163.

Crouch W, Burt P J. The logarithmic dependence of surface-generated ambient-sea-noise spectrum level on wind speed[j]. The Journal of theAcoustical Society of America, 1972, (3) : 1066 -1072.

Knudsen V O, Alford R S, emling J W. Underwater ambient noise[j]. Journal of Marine, 1948, 7 (3): 410-429.

Lin Jianheng , Ching , Garden Spring Music , correction method for estimating wind speed of marine ambient noise []. Journal of Acoustics , 2013 (3) 276-280.

Lin Jianheng, Jiang Guojian, Yuanquanle»et al. A modified method of the evaluating wind speed by ocean ambi-ent noise[j]. Actaacustica, 2013, 31(3) : 276-280

da Dragon , Wang , Lu Xiaoting , , and so on . Analysis of noise spectral characteristics of marine environ-ment based on latent standard method []. Oceanographic Report ,2014 (5): 54-60.

Da Lianglong, Wang Chao, Lu xiaoting, et al. The characteristic analysis of ambient sea noise spectrum based on submersible buoy[j]. IiaiyangXuebao, 2014 (5): -.

Linmingson , Ganghonghong , To solve the , , and so on . IIY-2A Microwave scattering meter wind field inversion algorithm []. China Engineering Science , 2013 , (7): 68-74.

Lin Mingsen, Zou Juhong, Xie Xuetong, et al. iiy-2a Microwave scatterometer Wind retrieval algo-rithm[j]. engineeringsciences»2013 (7):

-74

Figa-Saldana J, Wilson JJ W, Attema E, et al. The Advanced Scatterometer (ASCAT) on the meteorological opera-tional (METOP) platform: A fol- low on for European wind scat-terometers[j]. Canadian Journal of Remote Sens-ing, 2002 (3): 404 - 412.

Liu Yuxin, easy, Wang Zhaohui, etc. . Is based on the ascat Microwave scattering meter wind field and NCEP re-analyze wind field global ocean surface mixed wind field [].Ocean Forecast , 2014 (3): 10-18.

Liu yuxin, Zhang Yi, Wang Zhaohui, et al. Global sea surface blended winds based on the scatterometer winds and NCEP Reana Lyzed Winds[j].

Marine forecasts, 2014, (3) : -

Carey W m. Sound sources and levels in the ocean[j]. IEEE Journal of Oceanic Engineering, 2006 (1): ? -

Benjamin Reeder D, Sheffield E s, Mach S. wind-generated ambient noise in a topographically isolated 20>: A pre-industrial ERA proxy [J]. The Journal of the Acoustical Society of America, 129 (1) : -0>73.