面向中尺度涡提取的SLA去噪方法研究  

作　　者：吴书超[1,2] 董庆[1] 薛存金[1] 毕经武 廖志宏[1,2] 宋晚郊[1,2] WU Shuchao DONG Qing XUE Cunjin BI Jingwu LIAO Zhihong SONG Wanjiao(Key Laboratory of Digital Earth Sciences, Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences, Beijing 100094, China University of Chinese Academy of Sciences, Beijing 100049, China)

机构地区：[1]中国科学院遥感与数字地球研究所数字地球重点实验室,北京100094 [2]中国科学院大学,北京100049

出　　处：《地球信息科学学报》2016年第9期1240-1248,共9页Journal of Geo-information Science

基　　金：国家自然科学基金项目(41371385;41476154)

摘　　要：噪声去除一直是基于卫星高度计资料的海洋中尺度涡提取研究的难点和热点,然而无论是卷积滤波器还是信息滤波器都存在对海面高度异常(SLA)数据的局部过处理现象。鉴于此,本文提出一种基于包络面去噪的海洋中尺度涡提取方法。该算法可利用分离层内的信息稳定性和层间的信息完备性,很好地改进了卷积运算没有考虑局部噪声的不足,进而有效地提高去噪能力。其具体流程为:首先,对初始化的原始数据场进行上下包络面构造,形成原始数据子场;然后,根据子场内部和子场间的稳健性,把原始数据场转换为子场集合;其次,利用子场极差和标准差,对子场集合进行信息重组,形成噪声去除后的信息场;最后,利用去噪后的信息场数据,采用Winding-Angle(WA)和泛克立金中尺度涡提取算法在西北太平洋进行对比验证实验。实验结果表明,本文提出的方法较前人的方法有较大的提升,准确率为91.23%,取得了较好的应用效果。The noise removal of sea level anomaly （SLA） data set is crucial and important for extracting the mesoscale eddies. There are many filtering methods that have been developed for eliminating the noises in the sea level anomaly data set before extracting the mesoscale eddies. Nowadays, there are two mainstream approaches of noise removal, which are the convolution filtering and the information filtering. However, these filtering methods have some disadvantages that they could not recognize the fight signal from the wrong signals. Therefore, some of the wrong or negligible signals are also taken into account by these noises removal methods. For solving this problem, an envelope surface-based denoising algorithm of sea level anomaly data is proposed before extracting the mesoscale eddies. The envelope surface-based denoising algorithm could improve the effect of noise removal by using the information stability and completeness in the separated layers. This algorithm overcomes the insufficiency of the convolution filtering method that it could not distinguish the wrong signal from the fight ones. The detailed process of the envelope surface-based denoising algorithm includes three steps. First of all, the upper and lower envelope structures are used on the original data sets which have been initialized for extracting the subfields of sea level anomaly. Secondly, according to the robustness inside and among several subfields, the envelope surface-based denoising algorithm decomposes the original sea level anomaly fields into several subfields. The subfields could represent the information of the original sea level anomaly from different layers. Then the ranges and standard deviations of these subfields are adopted to recombine the information of several subfields set for shaping an information field after the noise removal. In the end, based on the information field after noise removal, the mesoscale eddies in the northwestern Pacific （22°N-50°N, 130°E- 150°W） are extracted by applying the Winding-Angle （

关 键 词：包络面去噪 中尺度涡提取 Winding-Angle算法 卫星高度计 

分 类 号：P715.6[天文地球—海洋科学]