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深水多波束声呐测深数据精度评估 总被引:1,自引:0,他引:1
多波束测深精度评估是水深测量质量控制的重要方面,静态精度评估与交叉测线动态精度评估能够从不同角度表征测深精度,估计测量样本的综合误差。在实际调查作业过程中,由于缺少水深真值,在进行精度估计时缺少可操作性。本文利用Kongsberg EM120型深水多波束系统的测深数据,基于某一区域的重复测量数据,应用中央波束的水深数据进行静态精度分析;通过引入网格化方法,进行动态水深精度评估分析,并通过偏差分析揭示测量样本的误差分布特征。结果表明,中央波束水深数据静态精度评估与基于网格化方法的动态精度评估具有实际可操作性,其结果能够有效估计测深的综合误差;重复测量数据的偏差分析能够有效展示误差的分布特征。 相似文献
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基于多源水深数据融合的海底高精度地形重建 总被引:2,自引:0,他引:2
本文在研究多源水深数据构建技术的基础上,分析了张力样条插值算法和“移去-恢复”法的多源水深数据融合处理技术,基于该方法选取实验区,利用多波束、单波束、历史海图等多源水深数据进行高精度海底地形融合试验,并针对多源水深融合技术缺少误差评估的现状,利用split-sample方法对融合结果进行水深不确定性评估,形成融合结果的可靠性空间分布。结果表明该方法无论是在数据稀疏区还是高密度区都达到了较好的融合效果,既保留了高分辨率水深数据的细节信息,又较真实的反映了研究区海底地形特征,且构建的海底地形精度可靠,误差百分比集中在0.5%。本文整套数据融合和结果评估方法可为多源水深数据融合的海底高精度地形构建提供借鉴和参考。 相似文献
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针对传统趋势面滤波方法中多项式拟合曲面系数向量的求取和作为阈值的均方根误差的求取都受到异常数据的影响,使该方法在异常测深数据较多的情况下滤波效果不佳的问题,提出了一种中值滤波加权修正的改进方法。在构造趋势面之前,对水深数据进行加权修正,以前后两次修正后数据的拟合优度的变化量作为是否进行下一步水深修正的依据,利用最终修正后的水深数据求取多项式拟合曲面系数向量和均方根误差,大幅降低了异常数据的影响,具有很强的抗差性。经仿真模拟数据和多波束实测数据滤波试验,该方法在异常数据较多的情况下依然良好,能够保持良好的滤波效果,明显优于传统趋势面滤波;同时,该方法能够保持较高的运算效率,适用于海量多波束测深数据的自动滤波。 相似文献
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相对于船载多波束系统而言,载体搭载多波束系统的精度受更多因素的影响。主要包括水下导航定位误差和压力传感器误差,这些误差会影响载体搭载多波束所获取的数据质量,降低所获取的水深精度,不利于进一步的分析和解释。本文分析了几类拖体调查水深的影响因素,并结合近期综合深水调查项目中现场所获取的资料,分析载体搭载多波束数据精度的实际误差,为现场作业和综合分析提供参考和依据。结果表明,作业前的校准工作对载体搭载多波束的数据精度影响较大,而在水深较浅的区域,采用船载多波束的所获取的水深精度较高。 相似文献
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多波束测深系统的精度评估方法研究 总被引:2,自引:1,他引:2
在分析了多波束测深系统测量误差来源的基础上,讨论了多波柬测深系统静态精度、相对精度和绝对精度的系统精度评估方法。采用的静态精度评估方法就是在多波柬测深系统静止的条件下考核其对同一位置测量深度的误差;相对精度评估方法就是布设多条交叉重叠的测线,考核交叉重叠点的测深误差;绝对精度评估方法是在多波束测深的同时利用高精度的测深仪测量同一区域,用此参考地理模型来检验多波束测深的精度。根据误差理论,三种精度评估的方法分别从系统稳定性、自符合性和系统误差方面确定各误差源的综合误差,它们是检验多波束测深系统精度是否符合海道测量标准的有效方法。文中给出了系统试验数据的重要结果及设备验收的方法。 相似文献
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CUBE算法及其在多波束数据处理中的应用 总被引:5,自引:0,他引:5
阐述了一种基于表面生成的多波束数据处理方法——CUBE(Combined Uncertainty and Bathymetry Estimator)算法,用该方法可以对观测区域网格节点"真实"水深及相关误差进行估计。与从测量水深中选择出"最佳"数据的手工交互方式的多波束数据编辑手段不同,CUBE算法具有很强的抗差性和较高的效率,适合于实时多波束数据处理。对南海某测区多波束数据处理结果表明,在没有人工干预的情况下,利用CUBE算法去噪生成的海底DTM图与手工编辑生成的相当吻合。CUBE算法和手工编辑方法综合对比得出,CUBE算法能够很好地保留水深地形细节,在计算效率、误差评估、实时处理等方面比手工编辑方法具有较大的优势。 相似文献
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多波束测量过程中,受到多种因素的影响,不可避免地存在各种误差,其中系统某个部件出现故障也不少见,如换能器、行波管、大功率微波开关或表层声速仪等器件功能不正常,引起多波束每 ping (一个发射接收周期) 数据中部分固定波束号的测深结果发生系统性偏移,以 2003 年东海调查 SeaBat900X 数据为例,其在垂直航向正投影平面上出现类似“W”字型的系统误差。本文基于该批次数据,系统分析了该类型系统偏差成因及外观表现,针对性提出基于等均值-方差拟合模型的改正方法,首先对异常区域和正常区域分别拟合地形趋势线,统计其均值和方差;然后以正常区域为基准,对异常区域内数据进行压缩和移动;最后通过面积差法,对数据中存在的折射残差进行消除,从而有效去除“W”型残差。文中实测数据验证了本文算法的有效性和可行性,对多波束其他类型的测深系统偏差处理具有一定的参考意义。 相似文献
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A new method for weakening the combined effect of residual errors on multibeam bathymetric data 总被引:2,自引:0,他引:2
Jianhu Zhao Jun Yan Hongmei Zhang Yuqing Zhang Aixue Wang 《Marine Geophysical Researches》2014,35(4):379-394
Multibeam bathymetric system (MBS) has been widely applied in the marine surveying for providing high-resolution seabed topography. However, some factors degrade the precision of bathymetry, including the sound velocity, the vessel attitude, the misalignment angle of the transducer and so on. Although these factors have been corrected strictly in bathymetric data processing, the final bathymetric result is still affected by their residual errors. In deep water, the result usually cannot meet the requirements of high-precision seabed topography. The combined effect of these residual errors is systematic, and it’s difficult to separate and weaken the effect using traditional single-error correction methods. Therefore, the paper puts forward a new method for weakening the effect of residual errors based on the frequency-spectrum characteristics of seabed topography and multibeam bathymetric data. Four steps, namely the separation of the low-frequency and the high-frequency part of bathymetric data, the reconstruction of the trend of actual seabed topography, the merging of the actual trend and the extracted microtopography, and the accuracy evaluation, are involved in the method. Experiment results prove that the proposed method could weaken the combined effect of residual errors on multibeam bathymetric data and efficiently improve the accuracy of the final post-processing results. We suggest that the method should be widely applied to MBS data processing in deep water. 相似文献
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Comparing single beam and multibeam echo sounder data where surveys overlap we find that: 95% of multibeam measurements are
repeatable to within 0.47% of depth; older single beam data can be at least as accurate as multibeam; single beam and multibeam
profiles show excellent agreement at full-wavelengths longer than 4 km; archival sounding errors are not Gaussian; 95% of
archival soundings in the northwest Atlantic are accurate to within 1.6% of depth; the 95th percentile error is about five
times greater in pre-1969 data than in post-1968 data; many of the largest errors are located over large seafloor slopes,
where small navigation errors can lead to large depth errors. Our uncertainty model has the form σ
2 = a
2 + (bz)2 + (cs)2, where 2σ is approximately the 95th percentile error, z is the depth, s is the slope, and a, b, c are constants we determine separately for pre-1969 and post-1968 data. 相似文献
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AbstractWe calibrate a technique to use repeated multibeam sidescan surveys in the deep ocean to recover seafloor displacements greater than a few meters. Displacement measurements from seafloor patches (3?km by 20?km) on the port and starboard side of the ship are used to estimate vertical and across-track displacement. We present displacement measurements from a survey of the Ayu Trough southwest of the Marianas Trench using a 12?kHz multibeam. Vertical and across-track displacement errors for the 12?kHz multibeam sonar are typically 0–2?m with RMS uncertainties of 0.25–0.67 m in the across-track and 0.37–0.75 m in the vertical as determined by 3-way closure tests. The uncertainty of the range-averaged sound velocity is a major error source. We estimate that variations in the sound velocity profile, as quantified using expendable bathythermographs (XBTs) during data collection, contribute up to 0.3?m RMS uncertainty in the across-track direction and 1.6?m RMS uncertainty in the vertical direction. 相似文献
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基于严密波束归位模型的多波束测深点不确定度改进方法 总被引:1,自引:0,他引:1
利用不确定度可有效对多波束测深成果质量进行评估,针对现有不确定度计算模型因近似或简化导致一定误差的问题,本文提出一种基于严密波束归位模型的多波束测深点不确定度改进方法。首先分析了多波束测深过程中的各项误差源,基于误差传播定律与严密波束归位模型,详细推导了各误差源在波束归位各阶段的误差传播情况,最终得出了多波束测深成果不确定度的计算模型。文中利用实测数据计算了每个测深点的不确定度,绘制了单Ping扇面及条带的不确定度分布图,有利于直观、全面地了解所有测深点的误差变化趋势;计算结果与常用HGM不确定度模型进行了对比,表明本文方法更具合理性,对多波束测深成果的质量评估具有一定的参考价值。 相似文献
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多波束声呐图像是进行海底底质分类的主要数据源之一,由于受海洋噪声、声波散射和混响、仪器设备等因素影响,其经各项常规改正后仍存在明显残差,突出表现在中央波束区和条带重叠区,难以形成高质量的声呐图像。文中分析了多波束声呐图像残差的成因及影响,提出了一种基于多条带最小二乘拟合的多波束声呐图像残差处理方法。首先,得到相邻声脉冲(ping)信号中央区域、重叠区域以及整体趋势的拟合函数;然后,通过拟合函数计算得到中央和重叠区域的残差改正系数;最后,通过改正系数进行残差改正。实验分析表明,该方法在保留原始细节的基础上,有效削弱了残差对声呐图像的影响,对多波束声呐图像处理具有参考和应用价值。 相似文献
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Fanlin Yang Dianpeng Su Kai Zhang Yue Ma Mingwei Wang Anxiu Yang 《Marine Geophysical Researches》2017,38(3):303-311
This study proposes a new methodology for mosaicing airborne light detection and ranging (LiDAR) bathymetry (ALB) data based on Monte Carlo matching. Various errors occur in ALB data due to imperfect system integration and other interference factors. To account for these errors, a Monte Carlo matching algorithm based on a nonlinear least-squares adjustment model is proposed. First, the raw data of strip overlap areas were filtered according to their relative drift of depths. Second, a Monte Carlo model and nonlinear least-squares adjustment model were combined to obtain seven transformation parameters. Then, the multibeam bathymetric data were used to correct the initial strip during strip mosaicing. Finally, to evaluate the proposed method, the experimental results were compared with the results of the Iterative Closest Points (ICP) and three-dimensional Normal Distributions Transform (3D-NDT) algorithms. The results demonstrate that the algorithm proposed in this study is more robust and effective. When the quality of the raw data is poor, the Monte Carlo matching algorithm can still achieve centimeter-level accuracy for overlapping areas, which meets the accuracy of bathymetry required by IHO Standards for Hydrographic Surveys Special Publication No.44. 相似文献
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This paper deals with the problem of systematic depth errors made in surveying dumped rocks with multibeam echosounder. These errors may induce dangers for navigation in very shallow water areas or huge costs for coastal engineering contractors who perform rock dumping operation and surveying. We analyze results from four different multibeam echosounder systems and compare those data to a reference digital terrain model of a dumped rocks area obtained from a 3D terrestrial laser scanner. The systematic depth errors are statistically described and analysed on local areas. Finally, we propose a look-up table linking the error amplitude with the rock size, resulting from our error analysis. 相似文献
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