共查询到19条相似文献,搜索用时 821 毫秒
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利用合成孔径雷达(SAR)图像研究海洋内波具有其他遥感探测及实地海洋测量不可替代的优势,然而从SAR数据中提取内波参数的方法却往往由于人工选取的位置不同使得反演的内波参数产生不同的偏差,为了尽量避免人工操作带来的误差并有效反演内波参数,文中提出了一种SAR图像海洋内波波向与波长参数估计的新方法。通过人工选取内波前导线上的3个位置点,计算机自动地获取内波的位置和内波的波向,提取内波断面,在此基础上利用EMD算法反演内波波长,结合内波区域海水密度剖面数据,进一步反演内波振幅参数。通过对实测SAR图像数据进行处理的结果可知,采用该方法对内波SAR图像进行处理,能很好地定位内波位置并获得传播方向及内波波长参数,结合海水密度剖面,实现了内波振幅参数反演。人工干预选取3个位置点,自动计算内波前导线弯曲弧度并自动计算5个内波剖面,减少了由于人工干预操作不同形成的偏差。 相似文献
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《海洋技术学报》2014,(6)
海洋SAR图像由于纹理复杂,目前绝大多数的SAR图像海洋内波处理方式都是通过人工干预在SAR图像上选取一个或多个沿内波传播方向的截面,再依据截面数据的灰度分布求内波波长等参数,这种方法要求操作者有一定的专业知识,且随操作者选取截面的不同,反演得到的内波参数变化较大。依据海洋内波特点,采用二维连续小波变换对海洋SAR图像进行滑动窗扫描,自动找出含有海洋内波的图像区域,再通过椭圆域归一化Radon变换自动反演含有内波区域的内波波长、传播方向等参数。由SAR图像内波参数提取结果可知,提出的SAR图像内波参数自动提取方法,是一种全自动的SAR图像内波参数提取方法,能够较好地定位内波所在的图像区域,自动提取这些区域中的内波参数,且提取的内波传播方向可自动去除180°模糊,可解决海量SAR海洋数据内波参数自动提取的难题。 相似文献
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南海北部内孤立波SAR遥感反演的初步研究 总被引:3,自引:0,他引:3
应用海洋内孤立波2层流体模型的SAR遥感反演技术,对南海北部内孤立波SAR遥感反演进行了初步研究.对于不存在由同一波源生成的2个内孤立波波包的SAR遥感图像资料,可以利用Levitus等的月平均温盐资料确定跃层深度和约化重力加速度,进而确定内波波速并进行内波振幅的反演.这样能够充分利用宝贵的SAR图像资源. 相似文献
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利用2006年Argo浮标资料分析吕宋海峡以东海域水团季节特性和混合层的月平均变化规律;并分别利用Argo多年季节平均资料与2006年资料,以秋季为例,基于P矢量方法计算该区域流场;同时考虑风生流的影响,将所得结果分别与利用Levitus和高度计资料计算的流场进行比较。结果表明,水团特性季节变化不明显,春冬季表层水团与夏秋季比较表现为低温高盐;次表层、中层和深层季节变化不大;混合层深度明显表现为冬季最深、夏季最浅的季节性变化。利用2002—2009年Argo季节平均资料基于P矢量方法能得到地转流场的基本结构,与Levitus资料的计算结果相比较,除可以反映黑潮,还可以反映一些涡旋结构;利用2006年秋季Argo资料计算流场与高度计资料计算的地转流场比较,其流场结构位置吻合得比较好,但存在流速偏小等不足,这可能与Argo资料较少且分布不均以及插值误差等有关,但其可以获得流场的三维结构,而利用高度计资料计算只能得到表层流场结构。 相似文献
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利用ALOS PALSAR全极化SAR内波图像,对比分析了SAR海洋内波在11种极化特征与后向散射系数(σ0) 图像中的可视性。在提取的SAR极化特征图像中,Lambda值的内波特征最为明显,极化熵和极化角次之。与σ0图像相比,Lambda值的内波可视性优于同极化的σ0图像;对于极化熵和极化角,沿距离向传播的内波可视性优于同极化的σ0图像,沿方位向传播的内波可视性略差于同极化的σ0图像,两者均优于交叉极化的σ0图像。HH/VV极化比、归一化圆极化系数和Bata值的内波特征较弱;HH/HV极化比、VV/VH极化比、Gamma值、Delta值和各向异性指数的内波图像均不清晰,无法识别内波。 相似文献
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针对传统内波重构是基于内波源基础,理论性限制太强,不适合实际应用。本文提出1种基于SAR图像反演内波参数并结合背景场密度剖面信息,对内波二维断面进行重构。在充分考虑到SAR图像反演的内波水平数据信息(数据信息均一化),垂向振幅以及垂向模态函数三者物理意义及相互关系后对内波二维断面重构,它具有物理意义清楚、实际可操作性强的特点。 相似文献
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Shallow water depth retrieval from space-borne SAR imagery 总被引:1,自引:1,他引:0
Kaiguo Fan Weigen Huang Hui Lin Jiayi Pan Bin Fu Yanzhen Gu 《Journal of Oceanography》2011,67(4):405-413
Based on shallow water bathymetry synthetic aperture radar (SAR) imaging mechanism and the microwave scattering imaging model
for oceanic surface features, we developed a new method for shallow water depth retrieval from space-borne SAR images. The
first guess of surface currents and winds are estimated from the normalized radar crossing section (NRCS) profile of shallow
water bathymetry SAR imagery, according to the linear theory and geophysical model function. The NRCS profile is then simulated
by the microwave scattering imaging model. Both the surface currents and winds are adjusted by using the dichotomy method
step by step to make the M4S-simulated NRCS profiles approach those observed by SAR. Then, the surface currents and the wind
speeds are retrieved when a best fit between simulated signals and the SAR image appears. Finally, water depths are derived
using the Navier–Stokes equation and finite difference method with the best estimated currents and the surface winds. The
method is tested on two SAR images of the Taiwan Shoal. Results show that the simulated shallow water NRCS profile is in good
agreement with those measured by SAR with the correlation coefficient as high as 85%. In addition, when water depths retrieved
from the SAR image are compared with in situ measurements, both the root mean square and relative error are less than 3.0 m
and 6.5%, respectively, indicating that SAR images are useful for shallow water depth retrieval and suggesting that the proposed
method in this paper is convergent and applicable. 相似文献
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In inviscid shallow water models currents generated by spatially uniform winds are transient and are eliminated by Rossby and equatorial Kelvin waves excited at the eastern and western coasts, respectively. The inclusion of mixing processes can lead to an entirely different steady state in which currents are present. It is shown that the mixing of heat affects the steady state more than does the mixing of momentum because the waves that are important in the oceanic adjustment are divergent. 相似文献
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1.Introduction Owingtothesimilaritiesbetweenthesurfacewaveandtheinterfacialwave,itisnaturaltoapply themethodsdevelopedforsurfacewavestothestudyofinterfacialwavesasreviewedbyUmeyama (1998;2000).Recently,Song(2004)derivedsecond ordersolutionsforrandominterfacialwavesat aconstantdepthinatwo layerfluidsystemwitharigidlidusinganexpansiontechnique,analogousto thatusedbyLonguet Higgins(1963)andSharmaandDean(1979),tostudyrandomsurfacewaves. Inthispaper,Song’sresultsareextendedtoamoregeneralcaseoft… 相似文献
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V. F. Sannikov 《Physical Oceanography》2011,20(6):410-418
In the linear statement, within the framework of long-wave approximation, we develop a mathematical model for the numerical
analysis of the fields of internal waves generated by a local unevenness of the bottom in a nonstationary spatially homogeneous
flow. For the corresponding problem, we obtain the solution suitable for numerical calculations. We study the effects connected
with periodic changes in the direction of currents and analyze the horizontal distribution of amplitudes for a single internal
mode and the dependence of this distribution on the Coriolis parameter. 相似文献
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Koji Hidaka 《Journal of Oceanography》1972,28(2):48-62
It is widely recognized that the geostrophic flows computed by the dynamic method of Bjerknes and collaborators represent the actual currents pretty faithfully. However, what would be the reason that a geostrophic current derived by only retaining the terms of Coriolis and the pressure gradient forces in the hydrodynamical equations agrees so closely with the actual ocean current of the same area? In this attempt was assumed an imaginative ocean of homogeneous water and uniform depth on a rotating earth but with neither continent nor islands. The average wind distribution observed along several meridians over the Pacific Ocean was assumed to prevail in this sea throughout with no variation in east-west direction. Taking the curvature of the earth surface, rotation of the earth, Coriolis forces, pressure gradients and the horizontal and vertical eddy viscosity into account, the equations of motion were solved and velocity components were derived for all latitudes. A comparison of the east-west components thus obtained with the corresponding components of the geostrophic flows, reveals that they agree well in higher latitudes but there appears a remarkable disagreement in lower latitudes. This means that a special care must be taken in replacing the existing currents with the geostrophic flows at lower latitudes. 相似文献
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Hidekazu Yasuda 《Journal of Oceanography》2004,60(3):587-596
The fundamental nature of the mass flux due to the shear effect is examined analytically in a basin with steady and oscillatory
currents to promote a better understanding of the mass transport process in coastal waters. The currents are given from solutions
of the simplified motion equation so as to be consistent with the diffusion equation. The matter concentration used is given
by an analytical solution of the diffusion equation with the settling flux term contained. Mass flux, yielding the depth-averaged
dispersion coefficient, is rather varied vertically in both steady and oscillatory currents. In the oscillatory current with
a Stokes layer in particular, the vertical profile of flux is more complicated and even negative flux is induced near the
basin floor. This negative flux does not necessarily yield a negative value of the vertically averaged dispersion coefficient.
The exact dispersion coefficient given by the flux analysis is realized only in the steady state of the matter concentration
distribution, though we can scarcely observe the steady state in the actual sea. The vertically uniform longitudinal dispersion
coefficient at the stationary stage is shown to be caused from the vertical complexity of mass flux by the action of the vertical
diffusing and the settling flux.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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Dynamical analysis of mesoscale eddy-induced ocean internal waves using linear theories 总被引:3,自引:1,他引:2
This study aims to explore generation mechanisms of the ocean internal wave using the dynamical analysis methods based on linear theories. Historical cruise measurements and recent synthetic aperture radar (SAR) observations of mesoscale eddies with diameter of several tens of kilometers to hundreds of kilometers show that the internal wave packets with wavelength of hundreds of meters to kilometer exist inside the mesoscale eddies. This coexistence phenomenon and inherent links between the two different scale processes are revealed in the solutions of governing equations and boundary conditions for the internal wave disturbance with a horizontally slowly variable amplitude in a cylindrical coordinate system. The theoretical solutions indicate that the instability of eddy current field provides the dynamical mechanism to internal wave generation. The derived dispersion relation indicates that the internal wave propagation is modified by the eddy current field structure. The energy equation of the internal waves clearly shows the internal wave energy increment comes from the eddy. The theoretical models are used to explain the observation of the mesoscale eddy-induced internal waves off the Norwegian coast. The two-dimensional waveform solution of the anticyclonic eddy-induced internal wave packet appears as ring-shaped curves, which contains the typical features of eddy stream lines. The comparison of theoretical solutions to the structure of the internal wave packets on SAR image shows a good agreement on the major features. 相似文献
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《Oceanic Engineering, IEEE Journal of》2005,30(3):543-551
Axial fronts of tidal currents are observed in Cook Inlet, AK, on a RADARSAT-1 standard mode synthetic aperture radar (SAR) image taken at 16:31:47 coordinated universal time (UTC) on July 12, 2002. The longest front appears as a 100-km-long quasi-linear bright feature in the SAR image. This front is characterized by an increase in the normalized radar cross section (NRCS) of 7 dB in the C-band horizontal polarization (C-HH) RADARSAT-1 SAR image. Two other smaller fronts exist in the middle of the inlet. The NRCS modulations appear to be less, at about 5 dB. A diagnostic Cook Inlet tidal model is developed to calculate the current velocity fields of the inlet and to demonstrate that the variation in bottom friction caused by the bathymetry distribution generates axial convergence at different tidal stages. The model, using the actual bathymetry, is driven by predicted tides from six tidal stations along the inlet coast. The model results show that the tidal current flowed into the inlet at the time the SAR image was obtained. Tidal current along two transects in the inlet is extracted to show that there is a significant cross-channel convergence of the along-channel velocity component, with a magnitude of 4 to 6 /spl times/ 10/sup -4/ s/sup -1/ near the observed front positions. In general, a higher velocity convergence from the model corresponds to higher NRCS return areas in this SAR image. 相似文献