共查询到19条相似文献,搜索用时 156 毫秒
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基于栅格叠合的沉积物底质图生成方法 总被引:2,自引:0,他引:2
文章提出了一种基于GIS空间插值和栅格图叠合技术,分析生成沉积物底质图的方法,并以曹妃甸海区为例,以170个海底表层沉积物样的粒度分析结果为依据,应用本文设计的方法生成这一海区的底质分布图,并用预留的20个采样点进行了精度分析和检验,在此基础上比较了不同的空间插值方法对生成的底质图结果的影响.结果显示出这一方法成图速度快、自动化程度高,但也存在对原始数据精度要求高、插值方法带来误差等问题.在借鉴传统底质图生成方法的基础上,运用三维TIN模型对成图结果进行改进,最终形成一种结合地貌要素的栅格叠合的沉积物底质图生成方法. 相似文献
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数字高程模型(DEM)不仅可以实现三维地形可视化,而且还能由其进一步获得与高程有关的地形要素。针对青藏高原DEM生成和应用过程中碰到的数据量大、区域广阔、应用难度大等问题,本文给出了相应的解决方案,提出一套DEM制作和应用流程:以1:25万地形图矢量等高线数据内插方式生成青藏高原DEM数据,在此基础上,运用Mask处理后相交分析思想与多级金字塔、DEM水淹分析、高程分带等处理技术实现了青藏高原三维地形可视化、三维遥感影像制作、及其它生态地质环境因素的变化分析。基于此方法生成的青藏高原DEM数据,不仅精度高,三维地形可视化效果好,而且解决了海量DEM数据与其它资料综合分析的问题。 相似文献
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区域积温插值的GIS方法 总被引:2,自引:0,他引:2
阐述了积温期分解对区域积温插值GIS方法的改进.运用该方法对台站各旬日均温纪录进行分解,得到>0℃期间的积温期长度与对应的气温下降累计值,发现它们之间呈现很好的线性关系,而积温值与积温期之间用指数回归拟合曲线代表更切合.在气温垂直递减率的基础上,用上述直线关系为参数,构建基于GIS(ARC/INFO地理信息系统)GRID模块的插值方法,依据高分辨率的DEM与台站海拔高度TIN之间的高度差进行高度订正以生成多山区域的积温数据库.与改进前的GIS插值相比,该方法可使甘肃省区域内积温插值的相对精度提高近3倍.这种方法可以在甘肃省退耕还林还草等生态建设信息化管理中得到应用. 相似文献
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工程土方量计算比较分析 总被引:20,自引:0,他引:20
土方计算的基本方法有断面法、方格网法、等高线法及基于数字高程模型(DEM)法。在实际生产应用中,不同的方法计算的同一场地土方量数量相差较大,所以不同方法土方计算精度不同,适用范围也不一样。本文基于对工程土方量计算中的断面法、方格网法、等高线法及基于数字高程模型(DEM)法的基本原理、方法和优缺点比较分析。从理论上讨论它们的适用范围、条件及精度分析。结果表明,DEM法适用于所有场地,且精度较高,方格网法只适用于平坦场地;断面法适用于特别复杂的狭长带状地形场地。 相似文献
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数字高程模型(DEM)中的闭合洼地和平坦区域影响着流域排水网络的自动提取.目前已提出很多方法来处理这两种地形,但均针对已经形成的DEM单元网格进行处理,结果往往生成伪河道及平行河道.在回顾分析了这些方法存在的问题后,提出了一种新的处理方法,该法认为DEM中的闭合洼地和平坦区域是由于低质量的资料输入、生成DEM时的内插误差等引起的.通过增加输入地形高程信息,避免了DEM中平坦区域和闭合洼地的生成,从而使由DEM生成的河网与实际河网能够精确拟合.实例分析表明,该方法效果明显. 相似文献
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以东莞市某航道水下数字地形构建为例,应用GPS—RTK技术并配合测深仪,荻取水下地形测量原始数据。通过VC+ObjectARXCAD二次开发,在构建格网DEM精度和运行效率方面,利用几种内插方法实现了数字航道水下地形模型的构建,得出在水下地形起伏不大的情况下.TIN线性内插在构建航道格网DEM中是一种高效率、高精度的方法。 相似文献
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基于多时相Landsat遥感影像,利用适合白洋淀湿地信息提取的综合提取方法提取湿地范围。将湿地范围视为水体淹没区,淹没区的边界线视为对应地表水位高程的等高线,并根据遥感影像、高程控制点等对淀区内受人为影响的局部区域进行校正,插值生成白洋淀湿地底部的数字高程模型(DEM)。选用遥感影像和地面高程控制点对构建的数字高程模型进行验证,遥感影像验证精度在80%以上,地面控制点验证误差在±0.5 m以内的点达到80%。这种由一系列遥感影像提取等高线生成数字高程模型的方法可以弥补白洋淀湿地内数字高程信息不足的缺陷,对于提高白洋淀湿地的水均衡计算和构建湖泊与地下水耦合模型的精度有着重要意义。 相似文献
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基于ICESat数据的南极冰盖DEM插值方法比较及精度分析 总被引:1,自引:0,他引:1
南极数字高程模型(DEM)是从事南极地学和环境变化研究的基础. 内插是建立数字高程模型的重要技术点, 插值方法有多种, 根据不同的适用情况, 不同的插值方法各有优劣. 利用克里格、 距离反权、 三角网剖分、 最小曲率以及移动平均5种插值方法分别建立南极冰盖小范围区域的DEM, 通过抽取部分观测数据作为验证值对各插值方法进行了比较. 结果表明: 克里格插值方法的可靠性最好, 稳定性最高. 然后, 利用克里格插值方法, 基于ICESat测高卫星的GLA12数据建立了南极冰盖的DEM. 由于南极大陆实测数据有限, 缺乏对DEM的检核. 为了分析所建DEM的可靠性, 利用中国南极内陆冰盖考察所采集的GPS实测数据, 对所建立的DEM进行了验证分析. 结果显示, DEM在坡度较缓的南极内陆冰盖区域精度较高, 符合度在3 m以内; 距离卫星轨道越近的区域精度越高, 可达到1 m 以内. 在坡度较大, 高程变化较为显著的区域如沿海地区, 精度较低, 差距最大的点超过40 m. 相似文献
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数字高程模型(DEM)是DTM的一种特例,是对地球表面地形地貌的一种离散的数字表达。DEM是地理信息系统进行地形分析的基础数据。采用1:10万数字等高线数据建构30m空间分辨率格网DEM,并基于DEM进行分级,提取坡度、地形起伏度及坡度聚类,坡谱等地形分析;比较准确地表达了福建的总体地形特征,为地理分析及环境评价等提供了基础的数据。 相似文献
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Atanu Bhattacharya Manoj K. Arora Mukat L. Sharma 《Journal of the Geological Society of India》2013,82(2):153-161
The Digital Elevation Models (DEMs), which represent the variation of elevation in a terrain at spatial level, are an important source of input to a variety of applications for deriving a number of terrain parameters such as relative relief, slope, aspect direction etc. In recent years, Synthetic Aperture Radar Interferometry has been viewed as a powerful approach to derive quality DEMs from a pair of SAR images. Despite the interferometric technique is often limited by several de-correlations several researchers demonstrate its effectiveness in topographic mapping. The DEM accuracy is strongly influenced by the effectiveness of the phase unwrapping technique. In this study an effective adaptive filtering approach has been used to reduce the phase noise due to de-correlation and in improving the accuracy of phase unwrapping. Two well known phase unwrapping approaches such as branch cut and minimum cost flow network have been used. Interferometric data from ASAR sensor onboard ENVISAT satellite have been used. A highly undulated terrain condition near Dehradun city situated in Uttarakhand state of India was selected to investigate the performance of this adaptive filtering approach. The RMS error between the InSAR derived elevations and the map derived elevations was obtained as 7.2 m using adaptive filter. However, elevation map of the study area could not be generated due to high de-correlation effect without the use of adaptive filter. This result clearly demonstrates the effectiveness of adaptive filtering approach for generation of DEM at meter level accuracy, which is sufficient for many engineering applications. 相似文献
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基于InSAR和ICESat的南极冰盖地区DEM提取和精度分析 总被引:3,自引:1,他引:2
结合InSAR和ICESat测高数据,以东南极PANDA断面4个实验区为例,进行DEM生成研究.在干涉相位转换成高程前,引入ICESat测高数据作为控制点优化干涉对基线,消除基线线性误差趋势的影响.利用控制点之外的ICESat测高数据分析4个实验区的DEM精度及其差异,并探讨了引起DEM误差的原因.冰流和地貌特征是影响InSAR生成冰盖DEM精度的重要因素.针对冰流的影响,从理论上进行了分析并结合冰流速数据进行了分析验证.最后利用克里金插值法改正InSAR DEM残余误差,并利用GPS实测控制点对改正效果进行验证.结果表明:对于高纬区流速较小且分布一致的区域,改正效果很好,DEM精度可达3 m;而对于冰流速较大且复杂的地区,需采用多基线等算法进一步消弱冰流引入的误差. 相似文献
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Arun Mondal Deepak Khare Sananda Kundu Sandip Mukherjee Anirban Mukhopadhyay Surajit Mondal 《地学前缘(英文版)》2017,8(3):425-436
Digital Elevation Model (DEM) is one of the important parameters for soil erosion assessment. Notable uncertainties are observed in this study while using three high resolution open source DEMs. The Revised Universal Soil Loss Equation (RUSLE) model has been applied to analysis the assessment of soil erosion uncertainty using open source DEMs (SRTM, ASTER and CARTOSAT) and their increasing grid space (pixel size) from the actual. The study area is a part of the Narmada river basin in Madhya Pradesh state, which is located in the central part of India and the area covered 20,558 km2. The actual resolution of DEMs is 30 m and their increasing grid spaces are taken as 90, 150, 210, 270 and 330 m for this study. Vertical accuracy of DEMs has been assessed using actual heights of the sample points that have been taken considering planimetric survey based map (toposheet). Elevations of DEMs are converted to the same vertical datum from WGS 84 to MSL (Mean Sea Level), before the accuracy assessment and modelling. Results indicate that the accuracy of the SRTM DEM with the RMSE of 13.31, 14.51, and 18.19 m in 30, 150 and 330 m resolution respectively, is better than the ASTER and the CARTOSAT DEMs. When the grid space of the DEMs increases, the accuracy of the elevation and calculated soil erosion decreases. This study presents a potential uncertainty introduced by open source high resolution DEMs in the accuracy of the soil erosion assessment models. The research provides an analysis of errors in selecting DEMs using the original and increased grid space for soil erosion modelling. 相似文献
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The paper evaluates sensitivity of various spaceborne digital elevation models (DEMs), viz., Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), Shuttle Radar Topography Mapping Mission (SRTM) and Global Multi-resolution Terrain Elevation Data 2010 (GMTED), in comparison with the DEM (TOPO) derived from contour data of 20 m interval of Survey of India topographic sheets of 1 : 50,000 scale. Several topographic attributes, such as elevation (above mean sea level), relative relief, slope, aspect, curvature, slope-length and -steepness (LS) factor, terrain ruggedness index (TRI), topo- graphic wetness index (TWI), hypsometric integral (lhyp) and drainage network attributes (stream number and stream length) of two tropical mountain river basins, viz. Muthirapuzha River Basin and Pambar River Basin are compared to evaluate the variations. Though the basins are comparable in extent, they differ in respect of terrain characteristics and climate. The result.,; suggest that ASTER and SRTM provide equally reliable representation of topography portrayed by TOP() and the topographic attributes extracted from the spaceborne DEMs are in agreement with those derived from TOPO. Despite the coarser resolution, SRTM shows relatively higher vertical accuracy (RMSE -- 23 and 20 m respectively in MRB and PRB) compared to ASTER (RMSE - 33 and 24 m) and GMTED (RMSE - 59 and 48 m). Vertical accuracy of all the spaceborne DEMs is influenced by relief of the terrain as well as type of vegetation. Further, GMTED shows significant deviation for most of the attributes, indicating its inability for mountain-river-basin-scale studies. 相似文献
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Small-scale terrains on salt materials were surveyed with a Total Station and a series of digital elevation models (DEMs)
constructed. Two sets of observations were made, eight months apart, during which the terrains underwent significant erosion.
The difference in elevation shown by the DEMs, calculated by subtraction, is a measure of surface erosion of the salt terrains.
The erosion rate was analysed with respect to four terrain parameters calculated in the software. High erosion rates, and
their strong control by terrain slope, are demonstrated, supporting an earlier study using erosion pins. Slope profile curvature
is also indicated as having some influence. The combination of scanning Total Station and DEM software is shown to be an effective
tool for investigating rapid geomorphic change at this scale of study. 相似文献
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Determining the optimum cell size of digital elevation model for hydrologic application 总被引:1,自引:0,他引:1
Scale is one of the most important but unsolved issues in various scientific disciplines that deal with spatial data. The
arbitrary choice of grid cell size for contour interpolated digital elevation models (DEM) is one of the major sources of
uncertainty in the hydrologic modelling process. In this paper, an attempt was made to identify methods for determining an
optimum cell size for a contour interpolated DEM in prior to hydrologic modelling. Twenty-meter interval contour lines were
used to generate DEMs of five different resolutions, viz., 30, 45, 60, 75, and 90 m using TOPOGRID algorithm. The obtained DEMs were explored for their intrinsic quality using four
different methods, i.e., sink analysis, fractal dimension of derived stream network, entropy measurement and semivariogram
modelling. These methods were applied to determine the level artifacts (interpolation error) in DEM surface as well as derived
stream network, spatial information content and spatial variability respectively. The results indicated that a 90 m cell size
is sufficient to capture the terrain variability for subsequent hydrologic modelling in the study area. The significance of
this research work is that it provides methods which DEM users can apply to select an appropriate DEM cell size in prior to
detailed hydrologic modelling. 相似文献
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The successful operation of the TanDEM-X satellite mission is the start of a new era of globally consistent and accurate digital elevation data for planet Earth. In this work available 12 m-resolution intermediate TanDEM-X products (DEM: digital elevation model; HEM: height error map; COV: coverage map; WAM: water indication mask) are evaluated over Tasmania. Elevations from the TanDEM-X intermediate digital elevation model (IDEM) are compared with (a) other global DEMs (30 m-resolution SRTM1 USGS v3 and 30 m-resolution Advanced Spaceborne Thermal Emission Reflectometer (ASTER GDEM2), (b) the local 25 m-resolution DEM made available by Tasmanian environmental authority (DPIPWE), and (c) over 15 000 accurate ground-control-points (GCPs) from the Australian National Gravity Database (ANGD). The comparison with ASTER and SRTM over the area of Tasmania involves over 500 million valid TanDEM-X IDEM elevations. The root-mean-square (RMS) of 8.8 m indicates a reasonable to good agreement of TanDEM-X IDEM and SRTM, while ASTER shows almost twice the disagreement in terms of RMS (~16.5 m). Both, ASTER and SRTM show a (mean) offset of –1.9 m and –2.3 m w.r.t. TanDEM-X IDEM, respectively. By comparisons with GCPs, we find that SRTM and ASTER overestimate the terrain height. The comparison with the AGND GCPs also allows an estimate of the absolute accuracy of the IDEM, which is found to be superior to that of SRTM or ASTER. The RMS error of 6.6 m shows that the IDEM is close to the officially denoted 4 m absolute vertical accuracy considering that the GCPs are not error free. The height error map information layer is found to a suitable first indicator of the (local) accuracy of the IDEM in a relative sense. However, we find that the HEM tends to underestimate observed differences to the GCPs. Terrain-type analyses reveal that the TanDEM-X IDEM is a very consistent elevation database over Tasmania. In conclusion, our study demonstrates that the new TanDEM-X elevation data sets provide improved high-resolution terrain information over Tasmania and beyond. 相似文献
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Veena Joshi Devidas Tambe Gorakh Dhawade 《Journal of the Geological Society of India》2009,73(3):355-370
One of the most serious limitations in studying the surface morphometry of a badland landscape is the nonavailability of a
very fine resolution data which is essential for such types of studies. Local relief of most of the badlands in India and
also from other parts of the world exhibit limited relief amplitude, often within a few meters. The paper reports a case study
carried out in a riverine badland formed along the Western Deccan Trap Region. An attempt has been made in the present paper
to extract the morphometric variables of the landscape from the DEMs derived from a high resolution field generated data,
because the accuracy of the DEM derived values are dependent on the pixel resolution of the DEM from which they are generated.
The size of the pixel resolution should be fixed differently for different landscapes depending on the landscape process in
the area. The local relief of the area is around 10 m and for such types of landscapes the topographical maps and also the
web-available DEMs are of very coarse resolutions which are not suitable for the analysis. Therefore two well defined tributary
catchments were chosen from the area under investigation and theodolite surveys were carried out, contours were generated
with 10 cm interval, DEMs were derived by using Arc GIS software. SRTM (Shuttle Radar Topography Mission) 90 m resolution
data were utilized to generate DEM for the whole basin. Hypsometric and the drainage basin parameters were extracted from
these data by using the same software. Fractal dimension of the whole basin and the sample basins were also obtained for the
same data. The morphometric data generated were used to understand the geomorphic processes operating in the area. 相似文献
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由于观测数据的不足,对不规则散点数据的二维插值在地球物理中应用非常广泛。这里研究并实现了自然邻点二维插值算法,并以一个大地电磁测深反演数据为例,验证了该方法的可行性与效果。实际资料试算与成图结果表明,该方法具有精度高、插值效果好、速度快以及便于模拟地形数据等优点。 相似文献