基于变异函数的多波束抽稀间距确定方法     

张志伟  肖付民  夏伟  李浩 《海洋测绘》2013,33(1):43-45

在格网化抽稀方法中,抽稀间距的选取直接影响多波束测深数据抽稀结果和构建海底地形的表征能力。为了合理确定多波束测深数据抽稀间距,将地质统计学中的变异函数理论引入到多波束测深数据抽稀中,由水深变异函数估计海底DEM的精度,得出海底DEM精度与抽稀间距的关系。通过仿真计算表明:如果给定海底DEM的精度,再依据计算得到的拟合水深变异函数参数值,即可确定多波束测深数据抽稀网格间距的大小,该法适用于多波束测深数据抽稀的应用中。  相似文献   

一种改进的基于TIN的多波束测深数据抽稀算法     

马丹  樊妙  闫循鹏  孙毅  马永 《海洋技术学报》2019,38(5)

多波束测深数据具有海量性与冗余性特征,海量的多波束数据不利于海底DEM构建与海图生产。因此,对于离散的多波束测深数据,行之有效的抽稀算法在多波束测深数据处理与应用中尤为重要。文中分析了常用的数据抽稀算法在数据处理速度以及特征地形保留方面的缺陷,提出一种通过改进基于TIN的数据处理流程的抽稀算法,并对比分析了抽稀前后海底地形特征。实验结果表明,改进的抽稀算法在数据量增大时依然可以保持较高的抽稀速度,能有效地提高数据抽稀的效率,准确保留海底地形特征。  相似文献   

基于航渡式水深数据的海底地形DEM建模方法     

贾俊涛  张哲  孟婵媛  周青  谭冀川  李明辉 《海洋测绘》2014,(3):34-36

针对航渡式水深测量资料海量、条带式分布的数据特点,提出了分块抽稀、区域建模、拼接整合的海底地形DEM建模思路,可有效提高不规则形状水深资料的建模效率,丰富海底地形DEM获取手段。实验证明,该方法具有结构简单、操作便利、内存占用少、计算效率高等特点,能够实现基于航渡式水深数据的海底地形DEM建模。  相似文献   

基于多波束数据的网格水深模型内插方法精度分析     

贾帅东  张立华  彭认灿  王涛 《海洋测绘》2013,33(5):24-26

以多波束水深数据作为源数据,分析了网格水深建模中的数据内插,介绍了网格水深建模所用的常用内插方法,并从水深建模的精度和效率出发,计算分析了网格水深建模过程中内插方法的应用效果。实验结果表明:在当前网格水深建模常用的内插方法中,加权平均法是较适合多波束水深源数据内插网格水深模型点的方法,双线性曲面法是较适合网格水深模型点推估模型表面任意点水深的方法。  相似文献   

基于三角网构建海底DEM的抽稀算法          下载免费PDF全文

冯宇瀚  殷晓冬  王少帅  郭江龙 《海洋测绘》2012,32(6):33-35

为压缩海量水深数据,实现在高分辨率下快速、完整和准确地表示海底地形,提出了一种基于三角网拓扑结构的数据抽稀方法。该方法利用Delaunay三角网的模型优势,快速寻找与水深点相关的区域。根据水深点对区域贡献度大小决定取舍。实验表明,该方法充分顾及海底地形变化趋势,能有效识别海底地形特征点,并且抽稀速度快、失真小、精度高。  相似文献   

顾及海底地形变化的狄洛尼三角网构建     

陆秀平 《海洋测绘》2010,(Z1):93-97

数字水深模型是对海底表面形态的数字化表达,传统的网格数字水深模型存在不能根据海区水深变化情况自动调节内插水深间隔的不足,提出了以深度极限误差作为判断标准,顾及海底地形变化的补深补浅方法,并在此基础上构建了相应的狄洛尼三角网。 实验证明:与传统的最浅点抽稀规则格网方法相比,所提方法更能合理的反映出海底地形的实际变化情况,并明显改善 DDM 精度。  相似文献   

不同尺度DDM的深度保证率变化规律研究          下载免费PDF全文

曹鸿博  张立华  贾帅东  刘现鹏 《海洋测绘》2018,(3):21-25

针对当前高密度多波束水深数据抽稀后所构建数字水深模型(digital depth model,DDM)的航海安全性缺少估计这一问题,分别以最浅点法、最近点法和平均值法3种常用方法抽稀水深数据并构建DDM,在此基础上,分析不同抽稀方法所构建DDM随尺度变化的深度保证率变化规律,采用统计分析的方法建立DDM深度保证率与抽稀尺度、海底地形复杂因子之间的数学回归模型。实验表明:该回归模型不仅可用于估算基于不同抽稀方法所构建DDM的深度保证率,也为确定满足适合的DDM深度保证率所需要的抽稀尺度提供了理论依据。  相似文献   

基于改进反距离加权算法的海底DEM建模方法          下载免费PDF全文

王可伟  高利华  江锋 《海洋测绘》2021,41(1):61-64

为了实现海底地形三维可视化,首先需要对海量多波束离散水深数据进行DEM建模处理。其中,基于反距离加权网格化的内插法原理简单、效率较高,生成的DEM模型较为贴近海底实际底面,适用于海底地形数字建模。但本文在实际建模过程中发现传统反距离加权算法在理论上存在缺陷,因此本文引入圆形窗口和夹角权因子对插值算法进行进一步改进。实例表明,改进反距离加权算法可以有效提高海底DEM的建模效率与精度。  相似文献   

基于Ping的Douglas-Peucker法抽稀阈值优化选取          下载免费PDF全文

张志伟  暴景阳  肖付民  上飞飞  马少华 《海洋测绘》2015,(2):9-12

抽稀阈值的合理选取直接影响多波束测深数据抽稀结果和构建海底地形的表征能力,在基于Ping的Douglas-Peucker法多波束测深数据抽稀的基础上,提出了计算拟合曲线曲率值确定多波束测深数据抽稀阈值的方法。通过算例分析,验证了该方法在多波束测深数据抽稀中的适用性和有效性,取得了较好的抽稀效果。  相似文献   

面向地形匹配的多波束测深数据抽稀方法研究     

訾桂峰  程秀丽  刘毅  徐遵义 《海洋工程》2013,31(6):118-123

基于多波束测深的地形定位是水下潜器导航技术研究和发展的重点,多波束测深数据的高精度快速重采样是水下地形匹配定位的前提。传统的实时抽稀方法因对多波束测深数据模型的过分简化而效果欠佳。参考Douglas-Peucker算法和点云数据抽稀方法,采用角度-弦高联合准则对多波束每ping数据进行抽稀处理,参考导航地形图对抽稀后的多ping数据基于点云离散度进行二次抽稀处理,从而实现多波束测深数据的高精度快速抽稀处理。典型的数学仿真地形和实测多波束条带数据实验表明:文中提出的抽稀方法数据抽稀率仿真地形在85%以上,实测地形在90%以上,数据抽稀前后点云构成的曲面DEM误差在3%以内,并且算法实时性较好。  相似文献   

A Quantitative Method to Control and Adjust the Accuracy of Adaptive Grid Depth Modeling     

Zhang Lihua  Jia Shuaidong  Peng Rencan  Dong Jian  Li Ning 《Marine Geodesy》2013,36(4):408-427

To address the limitations of current methods to control and adjust the accuracy of depth models and relatively low accuracy, a quantitative method to control and adjust the accuracy of adaptive grid depth modeling is proposed. First, uncertainties in source data and interpolated depths are estimated, and the representation uncertainty derived from finite and discrete points representing the continuous seafloor surface is analyzed. Second, mean vertical uncertainty in an arbitrary given area is calculated. Finally, interpolation of the depths at grid nodes from source data and the distribution framework of the grid nodes are optimized in each local area, and an adaptive grid depth model is created according to the expected accuracy. The experimental results demonstrate that (1) the proposed method can control and adjust the accuracy of the depth model in each local area such that the accuracy of the constructed model meets the requirements of the expected index as closely as possible and (2) the proposed method can improve the accuracy of the depth modeling by optimizing the interpolation and distribution of the grid nodes.  相似文献   

基于多波束数据的海底地形建模技术   总被引：1，自引：0，他引：1  

孙岚  刘雁春  李明叁 《海洋测绘》2009,29(1):39-41

比较了基于多波束数据的几种建模技术，针对多波束数据量大的特点，提出了通过建立空间索引数据块并结合MQS插值方式来构建海底DEM模型。实验结果表明，该技术可实现多波束数据海底地形的建模与实时渲染。  相似文献   

基于CUBE算法的多波束测深数据自动处理研究   总被引：1，自引：0，他引：1  

王海栋  柴洪洲 《海洋通报》2011,30(3):246-251

对CUBE算法自动处理多波束测深数据的模型建立、格网节点的多重估计和最优估值选取准则进行了详细介绍,深入分析了多重估计的实用性,并通过实测数据对该算法进行实现.利用了抗差Kalman滤波改进CUBE算法.通过模拟数据对改进的CUBE算法进行实验,验证了算法改进的必要性.  相似文献   

Validation of automated supervised segmentation of multibeam backscatter data from the Chatham Rise,New Zealand     

Jess I. T. Hillman  Geoffroy Lamarche  Arne Pallentin  Ingo A. Pecher  Andrew R. Gorman  Jens Schneider von Deimling 《Marine Geophysical Researches》2018,39(1-2):205-227

Using automated supervised segmentation of multibeam backscatter data to delineate seafloor substrates is a relatively novel technique. Low-frequency multibeam echosounders (MBES), such as the 12-kHz EM120, present particular difficulties since the signal can penetrate several metres into the seafloor, depending on substrate type. We present a case study illustrating how a non-targeted dataset may be used to derive information from multibeam backscatter data regarding distribution of substrate types. The results allow us to assess limitations associated with low frequency MBES where sub-bottom layering is present, and test the accuracy of automated supervised segmentation performed using SonarScope® software. This is done through comparison of predicted and observed substrate from backscatter facies-derived classes and substrate data, reinforced using quantitative statistical analysis based on a confusion matrix. We use sediment samples, video transects and sub-bottom profiles acquired on the Chatham Rise, east of New Zealand. Inferences on the substrate types are made using the Generic Seafloor Acoustic Backscatter (GSAB) model, and the extents of the backscatter classes are delineated by automated supervised segmentation. Correlating substrate data to backscatter classes revealed that backscatter amplitude may correspond to lithologies up to 4 m below the seafloor. Our results emphasise several issues related to substrate characterisation using backscatter classification, primarily because the GSAB model does not only relate to grain size and roughness properties of substrate, but also accounts for other parameters that influence backscatter. Better understanding these limitations allows us to derive first-order interpretations of sediment properties from automated supervised segmentation.  相似文献   

多波束反向散射强度数据处理研究   总被引：8，自引：5，他引：8  

唐秋华  周兴华  丁继胜  刘忠臣  杜德文 《海洋学报》2006,28(2):51-55

在探讨多波束测深系统反向散射强度与海底底质类型的关系基础上,研究影响反向散射强度的各种因素,主要分析了海底地形起伏、中央波束区反射信号对反向散射强度的影响,并给出了消除这些影响的方法;将处理后的“纯”反向散射强度数据镶嵌生成海底声像图,为海底底质类型划分以及地貌解译提供了基础数据和辅助判读依据.  相似文献   

Processing Multibeam Backscatter Data     

Qiu-hua Tang  Xing-hua Zhou  Zhong-chen Liu  AND De-wen DU 《Marine Geodesy》2013,36(3):251-258

A new highly precise source of data has recently become available using multibeam sonar systems in hydrography. Multibeam sonar systems can provide hydrographic quality depth data as well as high-resolution seafloor sonar images. We utilize the seafloor backscatter strength data of each beam from multibeam sonar and the automatic classification technology so that we can get the seafloor type identification maps. In this article, analyzing all kinds of error effects in backscatter strength, data are based on the relationship between backscatter strength and seafloor types. We emphasize particularly analyzing the influences of local bottom slope and near nadir reflection in backscatter strength data. We also give the correction algorithms and results of these two influent factors. After processing the raw backscatter strength data and correcting error effects, we can get processed backscatter strength data which reflect the features of seafloor types only. Applying the processed backscatter strength data and mosaicked seafloor sonar images, we engage in seafloor classification and geomorphy interpretation in future research.  相似文献   

Processing Multibeam Backscatter Data   总被引：1，自引：0，他引：1  

Qiu-hua Tang  Xing-hua Zhou  Zhong-chen Liu  De-wen DU 《Marine Geodesy》2005,28(3):251-258

A new highly precise source of data has recently become available using multibeam sonar systems in hydrography. Multibeam sonar systems can provide hydrographic quality depth data as well as high-resolution seafloor sonar images. We utilize the seafloor backscatter strength data of each beam from multibeam sonar and the automatic classification technology so that we can get the seafloor type identification maps. In this article, analyzing all kinds of error effects in backscatter strength, data are based on the relationship between backscatter strength and seafloor types. We emphasize particularly analyzing the influences of local bottom slope and near nadir reflection in backscatter strength data. We also give the correction algorithms and results of these two influent factors. After processing the raw backscatter strength data and correcting error effects, we can get processed backscatter strength data which reflect the features of seafloor types only. Applying the processed backscatter strength data and mosaicked seafloor sonar images, we engage in seafloor classification and geomorphy interpretation in future research.  相似文献