共查询到17条相似文献,搜索用时 296 毫秒
1.
凭借地面光斑小、分辨率高等特点,ICESat卫星激光测高数据在两极冰盖的研究中得到了广泛的应用。为了确定ICESat在冰面上的测高能力,本文利用格陵兰地区的ICESat交叉点不符值对其在冰盖表面的观测值精度进行了估计;并在充分考虑冰盖时变影响的条件下对交叉点不符值进行了统计。结果表明,其观测精度与地表反射面的坡度存在明显的线性关系,特别是在坡度小于1°的条件下,其相关性高达0.985。进一步考虑地表起伏对于高程内插的影响以后,得到理想环境下ICESat在冰面上的单点测高精度约为±6.4 cm。 相似文献
2.
基于ICESat/GLAS高度计数据的SRTM数据精度评估——以青藏高原地区为例 总被引:1,自引:0,他引:1
为全面了解航天飞机雷达测图计划(shuttle Radar topography mission,SRTM)高程数据的精度及误差特征,利用精度更高的ICESat/GLAS激光高度计数据(简称ICESat高度计数据)为参照数据,以具有多种地貌类型的中国青藏高原地区为实验区,采用双线性插值算法分析了SRTM在中国青藏高原地区的高程精度,以及SRTM高程数据与地形因子(坡度和坡向)间的关系。实验结果表明:在青藏高原地区,ICESat高度计数据与相对应的SRTM高程数据高度相关,相关系数高达0.999 8;SRTM的系统误差为2.36±16.48 m,中误差(RMSE)为16.65 m;当坡度低于25°时,SRTM高程数据精度随坡度增大而显著降低。此外,相对于ICESat高度计数据,SRTM在青藏高原地区N,NW和NE方向的测量值偏高,在S,SE和SW方向的测量值偏低。 相似文献
3.
南极冰盖DEM机载测高验证与分析——以西南极Thwaites冰川为例 总被引:2,自引:0,他引:2
利用冰桥计划(IceBridge)在西南极Thwaites冰川的机载激光测高数据,对ICESat卫星测高数据和目前国际常用的4种南极DEM,包括Bamber 1km DEM、ICESat DEM、RAMPv2DEM和JLB97DEM的精度进行了验证和分析。结果表明,ICESat卫星测高数据和ICESat DEM有着较高的高程可靠性,其与冰桥计划机载测高数据的平均高程差小于5m,标准差小于15m。Bamber 1km DEM高程可靠性相比ICESat卫星测高数据和ICESat DEM低一些。JLB97DEM、RAMPv2DEM与冰桥计划机载测高数据之间的标准差超过30m,尤其在坡度较大的区域,高程可靠性低。 相似文献
4.
卫星激光测高严密几何模型构建及精度初步验证 总被引:4,自引:0,他引:4
采用星载激光测高仪辅助提高卫星立体影像几何定位精度特别是高程精度,已经得到了航天摄影测量界的重视,计划于2018年发射的高分七号卫星上将同时搭载光学立体相机和激光测高仪。虽然,已有相关文献针对美国的ICESat(Ice,Cloud,and land Elevation Satellite)卫星上搭载的地球科学激光测高系统(Geo-science Laser Altimeter System,GLAS)的几何模型和产品精度作了相关介绍,但对其严密的几何定位模型和精度验证目前还没有系统性的阐述。本文较全面地对激光测高卫星的严密几何模型进行了构建与精度分析,并选择ICESat/GLAS的0级辅助文件,采用严密几何模型重现了2级产品的生产过程。将本文计算的结果与ICESat/GLAS的结果进行了对比分析,其中基于几何模型的高程误差约11 cm,平面误差在3 cm以内,表明所提出的严密几何模型的正确性,同时采用新发射的资源三号02星的激光测高数据进行了初步处理和验证。相关结论可为国产高分后续卫星的激光测高数据处理提供参考。 相似文献
5.
为了基于ICESat/GLA14测高数据对黄土高原重要水库水位变化进行动态监测,该文首先利用Landsat 8遥感影像提取黄土高原的水体边界,并参考ICESat/GLA14数据的分布状况在黄土高原东部选取了册田水库,中部选取了文峪河和王窑水库,西部选取了刘家峡、寺口子和沈家河水库;然后以10cm为阈值对ICESat/GLA14数据进行筛选,从而获得了所选水库水位长时间序列的动态变化;最后将册田和文峪河水库的ICESat/GLA14测量水位与实测水位进行比较,验证ICESat/GLA14监测水库水位变化的准确性。研究结果表明:东部水库水位呈明显下降趋势;中部水库水位在2005年5月明显下降,其后逐渐恢复,整体呈下降趋势;西部水库水位变化不大;ICESat/GLA14测量的水库水位变化与实测水位变化基本一致。 相似文献
6.
7.
本文侧重于介绍智能化摄影测量机器学习的高差拟合神经网络方法。观测手段和处理方式等限制导致全球高质量无缝DEM数据的缺乏,进而制约了它在水文、地质、气象及军事等领域的应用。本文提出了一种基于高差拟合神经网络的多源DEM融合方法,尝试融合全球DEM产品SRTM1、ASTER GDEM v2和激光雷达测高数据ICESat GLAS。首先,根据ICESat GLAS的相关参数及与DEM数据的高程差值,结合坡度自适应的思想设置高差阈值对ICESat GLAS进行滤波,剔除异常数据点。然后,以ICESat GLAS数据为控制点,利用神经网络模型拟合ASTER GDEM v2的误差分布。以地形坡度信息和经纬度坐标作为网络输入,ICESat GLAS和ASTER GDEM v2的高程差值作为目标输出,训练得到预测高差,将其与ASTER GDEM v2高程值相加即可获得校正结果。最后,引入TIN差分曲面的方法,利用校正后的ASTER GDEM v2高程值对SRTM1的数据空洞进行填充,融合生成空间无缝DEM。本文通过随机选取数据进行真实试验,对模型进行了精度验证,并给出了处理结果的定量评价和目视效果。结果表明,不论是空洞还是整体区域,本文方法相比其他DEM数据集和其他方法的处理结果都能够在RMSE上表现出优势,同时,本文提出的方法能够有效克服ASTER GDEM中异常值的影响,得到空间无缝DEM。 相似文献
8.
针对多源星载激光测高数据监测湖泊水位变化问题,该文选取2003—2009年ICESat/GLAH14全球地表高程数据、2018年10月—2019年8月的ICESat-2/ATL13全球内陆水体高程数据,提取丹江口水库多期水位变化数据,最后利用水位站实测水位对其准确度进行了验证,并分析了丹江口水库年度水位变化规律。结果表明,丹江口水库水位呈现明显的季节性变化,每年11月达到较高水位,3月降至较低水位;由ICESat/GLAH14数据估算水库水位的精度为16 cm,ICESat-2/ATL13数据集估算水库水位的精度达到10 cm。因此,ICESat-2/ATL13数据用于内陆水体水位变化监测具有很高的可行性。 相似文献
9.
充分利用南极地区的多种数据源(资源三号,ICESat/GLAS、LIMA DOM、ASTER GDEM),对其进行了相对精度分析,确定了利用多种数据源进行南极3D产品生产的技术路线,解决了目前我国极地中小比例尺3D产品基础地理信息数据生产关键技术的空白,提高了我国南极3D产品生产能力。 相似文献
10.
卫星测高作为空间大地测量的前沿发展技术,可以精确获取海平面高、湖泊水面高和平坦地高程。以ICESat激光卫星测高为例,提出利用ICESat卫星测高技术获取鄱阳湖水面高的数据处理方法和技术路线,首次采用EGM 2008模型和江西省二等水准拟合模型相结合的数据处理方法,将卫星测高获取成果转换至1985国家高程基准,与水文站实测水位数据相统一,提高了卫星测高的精度,并通过与其他方法获取的水面高数据进行比对,证明该方法的正确性和技术路线的可靠性,为鄱阳湖水面高获取提供了精确的检核数据和多源数据。 相似文献
11.
Nowadays, Geostatistics and its various interpolation techniques have become a major threshold area in the field of research
in GIS. In this research work poorly sampled (less accurate height data relative to ICESat/GLAS height data) Cartosat-1 height
data has been used with well sampled (more accurate height data relative to Cartosat-1 height data) ICESat/GLAS LiDAR (Light
Detection and Ranging) height point data using Cokriging Interpolation technique, to study the effect of ICESat/GLAS on Cartosat-1
height data. Space borne LiDAR data has led researchers to explore its utilities in many applications. Space borne LiDAR data
can be acquired through space borne LiDAR sensors also, like; GLAS (Geoscience Laser Altimeter System) system onboard ICESat
(Ice, Cloud and land Elevation Satellite) satellite. In this study, it has been tried to apply Cokriging interpolation on
two different sources of data sets, with a common variable (elevation) to generate DES and assessment of this surface has
been conducted by DGPS data. After optimizing Cokriging parameters, results of digital elevation surface (DES) generated using
Cokriging showed that RMSE has been second least than global polynomial in comparison to Kriging interpolation RMSE after
being evaluated by GPS values. So, global polynomial as well as cokriging interpolation technique out performs while comparing
with kriging technique for DES generation. 相似文献
12.
Hani Abdallah Jean-Stéphane Bailly Nicolas Baghdadi Nicolas Lemarquand 《ISPRS Journal of Photogrammetry and Remote Sensing》2011,66(6):833-844
Given that water resources are scarce and are strained by competing demands, it has become crucial to develop and improve techniques to observe the temporal and spatial variations in the inland water volume. Due to the lack of data and the heterogeneity of water level stations, remote sensing, and especially altimetry from space, appear as complementary techniques for water level monitoring. In addition to spatial resolution and sampling rates in space or time, one of the most relevant criteria for satellite altimetry on inland water is the accuracy of the elevation data. Here, the accuracy of ICESat LIDAR altimetry product is assessed over the Great Lakes in North America. The accuracy assessment method used in this paper emphasizes on autocorrelation in high temporal frequency ICESat measurements. It also considers uncertainties resulting from both in situ lake level reference data. A probabilistic upscaling process was developed. This process is based on several successive ICESat shots averaged in a spatial transect accounting for autocorrelation between successive shots. The method also applies pre-processing of the ICESat data with saturation correction of ICESat waveforms, spatial filtering to avoid measurement disturbance from the land–water transition effects on waveform saturation and data selection to avoid trends in water elevations across space. Initially this paper analyzes 237 collected ICESat transects, consistent with the available hydrometric ground stations for four of the Great Lakes. By adapting a geostatistical framework, a high frequency autocorrelation between successive shot elevation values was observed and then modeled for 45% of the 237 transects. The modeled autocorrelation was therefore used to estimate water elevations at the transect scale and the resulting uncertainty for the 117 transects without trend. This uncertainty was 8 times greater than the usual computed uncertainty, when no temporal correlation is taken into account. This temporal correlation, corresponding to approximately 11 consecutive ICESat shots, could be linked to low transmitted ICESat GLAS energy and to poor weather conditions. Assuming Gaussian uncertainties for both reference data and ICESat data upscaled at the transect scale, we derived GLAS deviations statistics by averaging the results at station and lake scales. An overall bias of −4.6 cm (underestimation) and an overall standard deviation of 11.6 cm were computed for all lakes. Results demonstrated the relevance of taking autocorrelation into account in satellite data uncertainty assesment. 相似文献
13.
提出了在结合高程特征变化的基础上利用ICESat海冰观测数据波形参数确定北冰洋海冰出水高度的方法,并与目前常用的最低点法进行比较。结果表明,最低点法计算的海冰出水高度不仅在空间分布上存在系统性误差,并且容易受到粗差影响,而本文的方法则具有较高的可靠性。本文在最低点法中加入高程标准差限制,并与本文提出的方法结合,计算并分析了2005年至2006年6个ICESat任务期的北冰洋海冰出水高度的季节变化。结果表明,2005年夏天的异常气候对于北冰洋海冰具有深远的影响,不仅使当年秋季的海冰出水高度大大减小,而且海冰的组成比例也发生了巨大变化。 相似文献
14.
ICESat激光高程点辅助的天绘一号卫星影像立体区域网平差 总被引:1,自引:1,他引:0
无地面控制点(简称无控)区域网平差是实现卫星影像无控测图的一项重要技术,对于境外和外业测控困难区域的测图具有重要意义。然而,无控区域网平差的定位精度一般难以满足对应比例尺测图规范要求。利用公开、可稳定获取的公众地理信息数据辅助区域网平差,是提高卫星影像无控定位精度的有效途径,其中ICESat激光高程点便是一种良好的高程控制数据。为了提高天绘一号卫星影像无控定位精度,本文提出ICESat激光高程点辅助的卫星影像模型法立体区域网平差方法。首先,以30 m分辨率SRTM估算的地形坡度作为限制条件,结合激光高程点自身质量评价信息,自动提取高质量ICESat激光高程点;其次,利用自动匹配的连接点进行模型法自由网平差,实现卫星影像几何定位精度的相对一致性(内部一致性);最后,将激光高程点自动量测至卫星影像作为控制点,其平面坐标根据自由网平差结果前方交会计算而得,高程坐标取自激光点高程,再次进行区域网平差精化定向参数,提高卫星影像的绝对高程精度。最后本文利用山东全省的天绘一号卫星影像进行试验,验证了本文方法的有效性和可行性。 相似文献
15.
卫星激光测高数据在湖泊水位测量方面具有重要的应用价值和独特优势,本文针对国产高分七号卫星上装备的线性体制全波形激光测高仪,开展在大型湖泊水位测量方面的应用探讨.介绍了高分七号卫星的基本参数,并与其他类卫星做了对比,分析了影响湖泊水位测量精度的卫星侧摆、大气散射、回波波形饱和等因素,研究了湖泊水面激光点的提取方法,结合I... 相似文献
16.
Sangho Baek Oh-Ig Kwoun Braun A. Zhong Lu Shum C.K. 《Geoscience and Remote Sensing Letters, IEEE》2005,2(4):413-417
We present a digital elevation model (DEM) of King Edward VII Peninsula, Sulzberger Bay, West Antarctica, developed using 12 European Remote Sensing (ERS) synthetic aperture radar (SAR) scenes and 24 Ice, Cloud, and land Elevation Satellite (ICESat) laser altimetry profiles. We employ differential interferograms from the ERS tandem mission SAR scenes acquired in the austral fall of 1996, and four selected ICESat laser altimetry profiles acquired in the austral fall of 2004, as ground control points (GCPs) to construct an improved geocentric 60-m resolution DEM over the grounded ice region. We then extend the DEM to include two ice shelves using ICESat profiles via Kriging. Twenty additional ICESat profiles acquired in 2003-2004 are used to assess the accuracy of the DEM. After accounting for radar penetration depth and predicted surface changes, including effects due to ice mass balance, solid Earth tides, and glacial isostatic adjustment, in part to account for the eight-year data acquisition discrepancy, the resulting difference between the DEM and ICESat profiles is -0.57/spl plusmn/5.88 m. After removing the discrepancy between the DEM and ICESat profiles for a final combined DEM using a bicubic spline, the overall difference is 0.05/spl plusmn/1.35 m. 相似文献
17.
Space born systems like Geoscience Laser Altimeter System (GLAS) onboard collect data for ice, cloud and Land. Elevation satellite
(ICESat) collects an unparalleled data set as waveform over terrestrial targets, helps in evaluating the global elevation
data. In this study we compared the Digital Elevation Surface (DES) generated by Cartosat-1 point data and DES generated by
merging the Cartosat-1 data with ICESat data. Outputs in the form of interpolated surfaces were evaluated with the help of
differential global positioning system (DGPS) points collected from study area. The study showed the results that the DES
generated from Cartosat — 1 data had less elevation accuracy when compared with the DGPS data. While merging Cartosat-1 point
height data with ICESat/GLAS data resulted in better accuracy. On the practical side for processing the interpolation, based
on the research the ICESat /GLAS with Cartosat-1 height data can produce better DES compared to the Cartosat-1 stereo data.
The DES was generated using geostatistical interpolation methods in which the global polynomial method proved to be the better
for generating the surface compare to other interpolation techniques studied in this work. For co-kriging method, the accuracy
decreases compare to the kriging interpolation, due to the complexity of parameters that were used for interpolation. On the
theory side, based on this research the statement of which interpolation technique is better than the other cannot be mentioned
easily, because these are based on the data type, parameters and also on method of interpolation. So research experiment should
be more intensely and with more focused. 相似文献