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1.
海洋中尺度涡建模及其在水声传播影响研究中的应用   总被引:1,自引:0,他引:1  
针对海洋中尺度涡对水声传播的影响,利用中尺度涡区的历史水文实测数据提取涡旋强度,空间尺度等中尺度涡特征参数,建立了海洋中尺度涡理论计算模型。运用MMPE水下声场模型仿真试验研究了涡旋性质、强度和位置、声源频率和置放深度对声传播特性的影响。结果表明:暖涡使得会聚区的位置后退,会聚区宽度增加;冷涡使得会聚区的位置前移,会聚区宽度减小。涡旋的强度越大,前移或后退的效应越显著。  相似文献   

2.
海洋中尺度涡能够使声能空间分布不均,进而对水声设备、水下兵器使用和潜艇战造成重大影响。本文基于2014年西太平洋海调中尺度涡观测资料,首先对该涡旋的三维结构特征进行研究,得出此为黑潮延伸体海域典型的气旋式冷涡。然后利用抛物方程水声数值模型仿真研究该中尺度涡对声传播损失的影响。研究表明:中尺度涡引发的海洋声速场水平扰动对水声场空间分布特征造成巨大影响,冷涡使得会聚区的位置前移,宽度减小,增益效能增强;声在中尺度涡边传播时,涡边会聚区较涡心会聚区的位置后退,宽度加大,增益效能减弱。  相似文献   

3.
通过构建中尺度涡的数学模型,利用射线-简正波-抛物方程(RMPE)声学模型进行传播损失计算,进而分析在深海声道、深海会聚区、海底反射3种传播模式下,中尺度涡对深海声效应的影响。数值仿真结果显示,暖涡对深海声道、会聚区产生下压效果,使会聚区水平距离变大,深海声道深度方向上变宽;冷涡使会聚区上抬,距离变短,对声场散射现象明显。研究结果表明,涡旋环境条件下,声场特征会产生显著变化。试验结果揭示了中尺度涡对深海声场效应的影响,对指导海上运用中尺度涡现象开展的科学研究、工程实践、军事运用具有积极的指导意义。  相似文献   

4.
针对海洋中尺度涡的检测与参数提取问题,本文使用中尺度涡SAR图像数据集,提出基于深度学习的EddyYolo目标检测模型进行中尺度涡的涡旋中心和涡旋水平尺度的多目标检测,并且提取涡心位置和涡旋水平半径等参数.实验结果表明:本文提出的EddyYolo模型实现了涡旋中心和涡旋水平尺度的多目标检测,检测准确率达到94%.在此基础上,结合二维高斯涡模型和三维中尺度涡模型,本文提出了基于卫星遥感与声学对中尺度涡的联合建模方法.  相似文献   

5.
台风轨迹和强度的预报一直备受关注,也是大气和海洋学家最为关注的科学问题之一。近些年,随着观测技术和计算机模拟的快速发展,发现海洋中尺度过程和台风有紧密的联系。本文针对该主题进行简要回顾和总结, 主要侧重2个方面:①台风如何影响海洋中尺度过程?强调了地转过程的重要性和高度计观测对台风影响涡旋的低估;②海洋中尺度过程如何影响台风?强调了冷暖涡的不同以及位置不同对台风强度的影响。在此基础上,探讨台风-涡旋相互作用研究中尚未解决的问题:涡旋对台风的三维响应、多涡对台风的综合效应、时间尺度匹配和海气通量等。  相似文献   

6.
张旭  程琛  邱仁贵 《海洋通报》2015,34(2):130-137
以Argo资料给出的一个典型西太平洋冬季冷涡为环境背景,应用BELLHOP高斯束射线模型计算声场,通过比较环境水平不变与环境水平变化声场的差异性,得出了涡旋环境和地形变化共同影响下会聚区声场出现的一些变异特征。分析结果表明,涡西侧声场在深海平坦地形条件下会聚区保持完整,从涡外向涡内传播时会聚区距离逐渐变小,反之距离变大,同时,涡中心附近的冷水上涌破坏了近表层的表面声道,使声传播损失突然增大。涡东侧的海山地形阻碍了会聚区反转,使声场出现了复杂的变异特征,如会聚区的截断、上反转点的抬升或下降、声线的多途传播以及增益位置的不规则变化等。这些声场变异特征是由西太平洋的背景环境、涡中的水文非均匀分布以及地形变化共同引起的。当地形变化不影响会聚区反转时,声场变化主要受涡锋面两侧水文环境差异的影响,典型特征是会聚区的偏移和表面声道的生消;当地形变化对会聚区反转产生明显的干扰时,地形条件对于声场能量分布具有主导作用,非均匀水文环境的影响弱化,但仍起到重要的调制作用。  相似文献   

7.
海洋中尺度涡作为物质循环、能量串级和信息传递的关键尺度和重要环节,具有丰富的热动力学内涵。文章基于中国近海及毗邻海域的涡动能分区,重点综述中尺度涡的运动属性、动力学本质和局地特征,从尺度局限与尺度关联的角度阐示中尺度涡旋的扰动生成、传播、能量级联和耗散,及其在海洋多尺度动力过程、热盐配置、生源要素调控和中尺度海气相互作用中的影响,并就相关科学问题和进展提出研究建议。研究结果表明:研究中尺度涡的演变规律对理解海洋物质能量传递的多维度层次、尺度规模和过程形式具有重要意义,需整体加深海洋中尺度涡自适应观测和可预报性研究,增强海洋中尺度涡的尺度演绎分析和特异性分析,建立从天气尺度到气候环境变化、生物生态影响以及致害致灾风险的能量信息通道,构建中观海洋生态系统动力学理论与模型,探索海洋中尺度涡精细化灾害风险预评估区划和安全保障新途径。  相似文献   

8.
Rhines效应是指Rossby波和大湍流(中尺度涡)相互作用,将涡动能量以波的形式传播出去,从而使中尺度涡发生形变,最终消亡的一种动力学机制。本文通过比较海洋里涡特征速度和Rossby长波波速的方法,研究了一种广义的Rhines效应对高度计观测的海洋中尺度涡空间分布特征的影响。结果显示,广义Rhines效应比只考虑行星涡度梯度的传统形式对中尺度涡的分布具有更显著的影响。大部分中尺度涡分布在涡特征速度(Ue)大于由广义Beta值计算的Rossby长波波速(Ucg)的区域。这些涡可以由动能反向串级过程获取能量,成长为振幅和空间尺度较大的涡。热带海域以外的“涡旋沙漠”区域,中尺度涡的数量稀少,强度很弱,大都分布于Uecg的海域。广义Rhines效应可能是这些海域中尺度涡难以成长的动力学机制。  相似文献   

9.
海洋中尺度涡对浮游生物的分布、能量和盐分的输送具有非常重要的影响,海洋中尺度涡的自动检测是监测、分析中尺度涡时空变化的重要基础。针对传统基于物理特征检测海洋中尺度涡的方法存在受限于人工设计参数导致精度不高的问题,本文依据海洋卫星反演的海表面高度图,提出了一种基于改进U-Net网络的海洋中尺度涡自动检测模型。该模型在海洋中尺度涡的特征提取阶段嵌入了卷积注意力机制,使得模型能够关注于海表面高度图中最具有类别区分度的区域,同时引入了残差学习机制解决了网络过深导致模型难以训练的问题。本文以南大西洋的卫星海表面高度数据集为例开展实验验证,结果表明,本文提出的模型海洋中尺度涡检测准确率达到了93.28%,显著优于EddyNet等现有模型。模型可为海洋学家通过海表面高度探测中尺度涡提供可靠技术方法。  相似文献   

10.
为了从理论上解释中尺度涡旋冷暖性质与涡旋旋转方向的关系,本文基于中尺度涡的几何特征,做出如下假设:中尺度涡具有对称的几何形态,涡旋中海洋要素沿径向具有线性化变化的特征。从原始方程组出发,利用柱坐标系和上述假设条件,略去耗散力,推导出了中尺度涡的一些冷暖特征,论证气旋式中尺度涡对应冷涡和反气旋式中尺度涡对应暖涡的涡旋冷暖特征与部分涡旋的观测不符的现象。结果表明,中心对称的形式可以作为对中尺度涡的几何特征的一个理想的形态近似,在考虑上述假设条件的理想环境下,柱坐标系在研究中尺度涡的几何性质上具有一定的优势。  相似文献   

11.
Tomographers map mesoscale ocean structure by inverting acoustic travel-time measurements through networks of underwater paths. To know where to deploy sensors and how to interpret their measurements, one must first understand the "forward problem," that is, how the sound channel and mesoscale features refract sound in three dimensions, and how such refraction alters the pulse-arrival sequence. We use a Hamiltonian ray-tracing program called HARPO to compute the refraction by continuous three-dimensional ocean models and to display the results in ways that add insight about refractive effects. We first simulate propagation in a simple range-independent sound channel, showing how pulse-arrival sequence depends on channel parameters and sensor placement. Next, we add linear range dependence and show that it is hard to extract range information from pulse measurements at one range. Finally, we add a simple model of a mesoscale eddy including its currents and show that deflection and splitting of the sound channel significantly alter the pulse-arrival sequence. Two diagrams that have not been widely used before are useful ways to display the arrival-time and ray-focusing perturbations caused by changes in ocean structure: they are plots of range versus launch angle and range versus travel time. Examples of azimuthal deflection, three-dimensional eigenrays, and reciprocal propagation through eddy currents are shown, and simplified methods for estimating the travel time of three-dimensional eigenrays are evaluated.  相似文献   

12.
Effects of mesoscale eddies on the internal solitary wave propagation   总被引:3,自引:1,他引:2  
The mesoscale eddy and internal wave both are phenomena commonly observed in oceans. It is aimed to investigate how the presence of a mesoscale eddy in the ocean affects wave form deformation of the internal solitary wave propagation. An ocean eddy is produced by a quasi-geostrophic model in f-plane, and the one-dimensional nonlinear variable-coefficient extended Korteweg-de Vries (eKdV) equation is used to simulate an internal solitary wave passing through the mesoscale eddy field. The results suggest that the mode structures of the linear internal wave are modified due to the presence of the mesoscale eddy field. A cyclonic eddy and an anticyclonic eddy have different influences on the background environment of the internal solitary wave propagation. The existence of a mesoscale eddy field has almost no prominent impact on the propagation of a smallamplitude internal solitary wave only based on the first mode vertical structure, but the mesoscale eddy background field exerts a considerable influence on the solitary wave propagation if considering high-mode vertical structures. Furthermore, whether an internal solitary wave first passes through anticyclonic eddy or cyclonic eddy, the deformation of wave profiles is different. Many observations of solitary internal waves in the real oceans suggest the formation of the waves. Apart from topography effect, it is shown that the mesoscale eddy background field is also a considerable factor which influences the internal solitary wave propagation and deformation.  相似文献   

13.
A theoretical model for the vertical directionality and depth dependence of high frequency (8 to 50 kHz) ambient noise in the deep ocean is developed. The anisotropic noise field at a variety of depths and frequencies is evaluated and displayed. It was found that at high frequencies and deep depths, a bottom-mounted hydrophone receives the maximum noise energy from overhead rather than from the horizontal. This leads to the consideration of an oblate hydrophone receiving response pattern for underwater tracking ranges that would provide a constant signal-to-noise ratio (SNR) for an acoustic source located anywhere in a circular area centered above the hydrophone. Two of the desirable characteristics of this type of pattern are the increase in receiving range of a bottom-mounted sensor and the decrease of the dynamic range of signals that a signal processor must handle.  相似文献   

14.
水下滑翔机是一种浮力驱动的无人水下自治观探测平台, 具有持续性、鲁棒性、自主性等特点, 是构建海洋观测技术体系重要的水下航行器之一。文章从水下滑翔机发展历程、运行方式和专用传感器展开, 基于国内外海洋学文献综述研究, 重点对水下滑翔机在典型海洋现象观测应用方面进行总结。水下滑翔机的运行稳定性、长时续, 观测高分辨率、低成本的特点, 满足了对海洋中尺度涡、内波、湍流、环流/边界流和锋面的长时间、精细化立体观测要求; 鲁棒性、自主性的特点使其能够适应台风过境、地震、原油泄漏前后等紧急恶劣海洋状况的监测; 运行平稳、低噪声的特点使其成为声学监测与探测的良好平台。对比分析国内外的水下滑翔机(组网)应用状况可以发现, 国内水下滑翔机在传感器、数据处理和组网技术方面都需要进一步完善。最后总结并展望了国内外水下滑翔机面向海洋现象观测的应用。  相似文献   

15.
作为重要的海洋中尺度现象之一,中尺度涡的研究受到人们的关注和重视。随着数值模式的进一步发展、卫星资料的累积、时间更长以及更多更有效的海上实测数据的取得,使得综合利用实测资料、卫星遥感资料、再分析/数值预报产品等数据源,对中尺度涡进行自动识别与三维结构分析成为中尺度涡研究的主要方向之一。在前期对卫星遥感资料中尺度涡自动检测算法进行研究的基础上,开展多源资料中尺度涡三维结构分析方法研究,以表面漂流浮标运动轨迹为中尺度涡的判定依据,综合利用高度计观测、红外遥感观测、以及再分析/数值预报产品分析中尺度涡三维结构信息,在此基础上,提出中尺度涡研究的发展方向,为全面分析中尺度涡的时空特性提供技术途径,为中尺度涡的动力机制研究奠定基础。  相似文献   

16.
The spatial distribution of eddy diffusivity, basic characteristics of coherent mesoscale eddies and their relationship are analyzed from numerical model outputs in the Southern Ocean. Mesoscale fluctuation information is obtained by a temporal-spatial filtering method, and the eddy diffusivity is calculated using a linear regression analysis between isoneutral thickness flux and large-scale isoneutral thickness gradient. The eddy diffusivity is on the order of O (103 m2/s) with a significant spatial variation, and it is larger in the area with strong coherent mesoscale eddy activity. The mesoscale eddies are mainly located in the upper ocean layer, with the average intensity no larger than 0.2. The mean radius of the coherent mesoscale cyclonic (anticyclonic) eddy gradually decays from (121.2±10.4) km ((117.8±9.6) km) at 30°S to (43.9±5.3) km ((44.7±4.9) km) at 65°S. Their vertical penetration depths (lifespans) are deeper (longer) between the northern side of the Subpolar Antarctic Front and 48°S. The normalized eddy diffusivity and coherent mesoscale eddy activity show a significant positive correlation, indicating that coherent mesoscale eddy plays an important role in eddy diffusivity.  相似文献   

17.
Mesoscale eddies, which are mainly caused by baroclinic effects in the ocean, are common oceanic phenomena in the Northwest Pacific Ocean and play very important roles in ocean circulation, ocean dynamics and material energy transport. The temperature structure of mesoscale eddies will lead to variations in oceanic baroclinity, which can be reflected in the sea level anomaly (SLA). Deep learning can automatically extract different features of data at multiple levels without human intervention, and find the hidden relations of data. Therefore, combining satellite SLA data with deep learning is a good way to invert the temperature structure inside eddies. This paper proposes a deep learning algorithm, eddy convolution neural network (ECN), which can train the relationship between mesoscale eddy temperature anomalies and sea level anomalies (SLAs), relying on the powerful feature extraction and learning abilities of convolutional neural networks. After obtaining the temperature structure model through ECN, according to climatic temperature data, the temperature structure of mesoscale eddies in the Northwest Pacific is retrieved with a spatial resolution of 0.25° at depths of 0–1 000 m. The overall accuracy of the ECN temperature structure is verified using Argo profiles at the locations of cyclonic and anticyclonic eddies during 2015–2016. Taking 10% error as the acceptable threshold of accuracy, 89.64% and 87.25% of the cyclonic and anticyclonic eddy temperature structures obtained by ECN met the threshold, respectively.  相似文献   

18.
孙显彬  郑轶  于非 《海洋科学》2019,43(1):95-100
以多传感器信息融合理论为指导,结合现代信息处理技术与数据驱动建模及科学计算技术,研究浅海超低频声源目标激发共存地震波的复合声场中超低频声波传播特性和数据驱动建模的水下目标深度识别等关键技术,并论证了技术实现方案及路径。结果表明:以复合矢量水听器、地震波监测仪等多传感器信息融合理论为指导研究前海超低频声源目标可以克服传统声场建模存在的问题,有助于浅海超低频声源目标探测及改善海洋水下声学监测手段。在提高声呐探测设备的测量准确度、精度方面具有重要的理论意义,对周边海域为浅海的我国海防具有实战价值。  相似文献   

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