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1.
DEM提取黄土高原地面坡度的不确定性 总被引:72,自引:0,他引:72
选择陕北黄土高原6个典型地貌类型区为试验样区,采用野外实测及高精度的1:1万比例尺DEM为基准数据,研究栅格分辨率及地形粗糙度对DEM所提取地面平均坡度精度的影响。结果显示,对于1:1万比例尺DEM,5 m是保证该地区地形描述精度的理想分辨率尺度;多要素逐步回归模拟的方法进一步揭示了DEM所提取的地面平均坡度误差E与栅格分辨率X以及地形起伏的代表性因子-沟壑密度S之间存在的量化关系为E = (0.0015S2+0.031S-0.0325)X-0.0045S2-0.155S+0.1625,该结果也为确定适用的DEM分辨率提供了理论依据。 相似文献
2.
土壤碳库研究中土壤数据从矢量到栅格的等精度转换 总被引:1,自引:1,他引:0
矢量数据转换成栅格数据是多数区域土壤碳库研究中数据准备的关键步骤。本研究以太湖地区1:5万、1:50万、1:400万3个比例尺土壤矢量数据库为基础,分别转成不同分辨率的栅格数据;基于不同比例尺和栅格分辨率数据,研究水稻土表层(0~20cm)的土壤类型数量、面积、有机碳储量以及有机碳密度变化,并以矢量数据获得的这4个指标为基准,用相对变异百分数(VIV)来判别不同栅格数据与其对应比例尺土壤矢量数据之间的精度差异。结果表明,在4个指标的|VIV|<1%前提下,3个比例尺矢量数据分别转换成0.2km×0.2km、1km×1km、9km×9km的栅格数据,既保证数据转换过程中精度要求,又避免了数据冗余。土壤数据比例尺与栅格分辨率等精度转换对应关系可描述为y=0.0225x-0.01233(R2=0.999),对区域土壤碳循环研究具有重要参考价值。 相似文献
3.
建立坡谱的尺度下推模型,有利于揭示地面坡谱的尺度依赖性.以5 m、25 m两种分辨率DEM为实验数据,应用遥感数字图像处理中直方图匹配的原理,对两种分辨率DEM获得的坡谱进行尺度下推.实验采用按不同Douglas压缩阈值(不同简化程度)得到的5 m、25 m两种分辨率的DEM数据,获得不同压缩阈值的DEM坡谱下推模型系数与地形因子之间的关系,最终建立两种分辨率DEM数据的坡谱尺度下推模型.将这种方法在陕北黄土丘陵沟壑区韭园沟样区进行验正,同时将模拟结果与原始5 m分辨率DEM数据所得的坡谱进行比较,试验结果表明,该模型能够比较理想的将25 m分辨率DEM的坡谱直接转换为5 m分辨率DEM的坡谱,方法简单易行,精度良好. 相似文献
4.
《地理与地理信息科学》2016,(2)
DEM分辨率深刻影响着以地形为基础的分布式水文过程模拟。以砒砂岩区二老虎沟小流域一个子沟为研究对象,通过无人机航测获得研究区DEM和影像,使用ArcGIS的栅格重采样方法和水文分析工具获得2~20m范围内11种分辨率的DEM、土地利用类型数据、土壤类型数据和河网数据,将相关数据输入CASC2D-SED模型,探讨不同的DEM分辨率在高分辨率区间对水文过程模拟的影响。研究表明:1)洪峰流量和模拟径流量均随DEM分辨率的降低呈波动上升;2)在2~3m和4~20m两个DEM分辨率区间水文过程线差别较大,而在4~20m范围内水文过程线变化不大;3)DEM分辨率对模型参数有重要影响,一定的DEM分辨率区间可以共用相同的水文参数,超过这个区间则必须重新率定;4)DEM分辨率增加使水文模拟效率降低。 相似文献
5.
以北方农牧交错带典型丘陵、山地及丘间盆地混合地带为研究区,利用国家测绘局提供的1∶5万地形图,比较ANUDEM方法与生成DEM常用的内插算法TIN、NNI、Kriging和IDW之间的精度。DEM质量评价采用数值精度指标验证,并辅以地形属性可视化分析、等高线分析和不同算法插值结果差异分析等,结果表明不同算法内插高程误差较大的区域主要分布在地形结构线附近;且ANUDEM方法生成的DEM精度较高,在其上提取的等高线与原始等高线吻合度高,能较好地反映研究区的真实地形。 相似文献
6.
SWIM水文模型的DEM尺度效应 总被引:6,自引:1,他引:5
数字高程模型(DEM)极大地促进了分布式流域水文模型的快速发展。本文引入SWIM水文模型,以淮河上游长台关地区为研究区,将15种不同分辨率DEM数据输入水文模型,分析DEM分辨率对径流模拟的影响,并探讨最佳DEM分辨率选取及DEM分辨率对流域地形参数与径流模拟影响等问题。研究表明:(1)研究区水文模拟效果较理想DEM分辨率在90~120m之间,采用栅格面积与流域面积比值(G/A)小于0.05和"thousandmillion"经验公式作为DEM选取参考等均适用;(2)DEM分辨率下降,水文模拟纳希效率系数呈波动下降,分辨率超过250m后,虽纳希效率系数有所提高,但此时DEM已不能刻画真实流域特征从而造成假象;(3)15种分辨率DEM在水文极端事件模拟上差异较大,高纳希效率系数时不能较好地反映水文极端事件,尤其是峰值,而在枯水期15种DEM水文模拟效果均较好,DEM分辨率降低导致水文模型对降水等反应敏感。 相似文献
7.
以浙江省仙居县为实验样区,通过气温空间分布的地形调节统计模型,使用10个气象站(哨)气温资料和4种不同空间分辨率的DEM(5 m,源于1∶1万数字化地形图;30 m,来源于Aster GDEM v2;90 m,来源于SRTMv4.1;900 m,源于GTOPO30’)模拟不同空间尺度年均气温空间分布,比较其误差大小及随宏观地形(海拔高度)和微观地形(坡度和坡向)的分布差异。结果表明:基于4种不同空间分辨率DEM模拟气温呈较大空间分布差异性;随着DEM空间分辨率减小,误差逐渐增加,空间差异性降低。微观地形因子(坡度和坡向)随空间分辨率的变化产生显著变化,明显影响气温空间分布,不同坡度和坡向间年均气温差最高可达到10~12.5℃,最小仅为1.9~2.6℃。 相似文献
8.
单流向法地形湿度指数尺度效应的不同地形区差异分析 总被引:1,自引:0,他引:1
《地理与地理信息科学》2016,(4)
利用DEM提取地形湿度指数(Topographic Wetness Index,TWI),以满足既定地理模型构建,需考虑不同地形区TWI提取的尺度效应。该文根据实际应用中的DEM分辨率尺度,生成1m、2.5m、5m、10m、20m、30m分辨率尺度的6景DEM;利用单流向算法提取研究区TWI;通过定性和定量方法分析了在不同DEM分辨率尺度中,居民地、梯田、湖泊和自然地形区4种地形区域中TWI值分布特征。结果表明:不同地形区TWI的尺度效应差异较大;随着DEM尺度增大,TWI值域逐渐缩小,变异程度逐渐增强,反映地表形态变化的能力逐渐减小;当DEM尺度大于5m时,TWI基本不能反映人工地形区域;自然地形区的TWI变化规律与研究区整体TWI变化规律相当,居民地与梯田的TWI变化规律大致相同,湖泊区域的TWI变化相对稳定。 相似文献
9.
基于数字高程模型(DEM)计算得到的坡度、坡向等地形属性是滑坡危险性评价模型的重要输入数据, DEM误差会导致地形属性计算结果不确定性, 进而影响滑坡危险性评价模型的结果。本文选择基于专家知识的滑坡危险性评价模型和逻辑斯第回归模型, 采用蒙特卡洛模拟方法, 研究DEM误差所导致的滑坡危险性评价模型结果不确定性。研究区位于长江中上游的重庆开县, 采用5 m分辨率的DEM, 以序贯高斯模拟方法模拟了不同大小(误差标准差为1 m、7.5 m、15 m)和空间自相关性(变程为0 m、30 m、60 m、120 m)的12 类DEM误差场参与滑坡危险性评价。每次模拟包括100 个实现, 通过对每次模拟分别计算滑坡危险性评价结果的标准差图层和分类一致性百分比图层, 用以评价结果不确定性。评价结果表明, 在不同的DEM精度下, 两个滑坡危险性评价模型所得结果的总体不确定性随空间自相关程度的变化趋势并不相同。当DEM空间自相关性程度不同时, 基于专家知识的滑坡危险性评价模型的评价结果总体不确定随着DEM误差增加而呈现不同的变化趋势, 而逻辑斯第回归模型的评价结果总体不确定性随着DEM误差大小增加而单调增加。从评价结果总体不确定性角度而言, 总体上逻辑斯第回归模型比基于专家知识的滑坡危险性评价模型更加依赖于DEM数据质量。 相似文献
10.
利用多时相Landsat影像生成白洋淀湖底DEM的研究 总被引:5,自引:2,他引:3
该文使用多时相Landsat影像,以白洋淀地区为例,阐述基于中等分辨率的可见光—近红外遥感影像生成具有较高精度数字高程模型的非常规方法。对覆盖同一研究区的不同时相影像分别进行淹没区与非淹没区的分类,提取不同水位高度时的水域边界,并以此为相应水位高度的等高线,对获得的等高线进行插值生成数字高程模型(DEM)。这种由一系列遥感影像提取的水域图生成数字高程模型的方法适用于人为干预较少、地形相对简单的湿地或季节性湖泊,可以弥补该类地区数字高程信息不足或精度不够的缺陷。 相似文献
11.
Carlos López 《International journal of geographical information science》2013,27(4):361-375
This paper focuses on a topic barely considered in the literature: how to improve the accuracy of a given Digital Elevation Model (DEM) irrespective of its lineage by identifying its most suspicious values (also denoted here as outliers). Methods tailored to a specific procedure and source (contour maps, remote sensing image, etc.) exist but they are not valid for other cases. This is a problem for both the producer and end user. The results of a comparison of two methods using six DEMs intended to be representative of different landscapes are reported here. Both methods have been applied to each DEM, producing a number of height candidates to be analysed. Assuming that all candidates are wrong, their elevations have been blindly replaced by interpolated heights, simulating the behaviour of the inexperienced user. The improved (or degraded) DEMs are then compared against the ground truth, and updated accuracy figures are calculated. The RMSE can diminish by 2 to 8% of the original value by changing less than 1% of the elevations in the dataset. 相似文献
12.
JAY GAO 《International journal of geographical information science》2013,27(2):199-212
This paper examines the impact of DEM resolution on the accuracy of terrain representation and of the gradient determined. The DEMs of three terrain types with diverse complexities were constructed from digitizing contours and then kriging. The accuracy (RMSE) of the DEMs was regressed against contour density (D) and DEM resolution (S) at six resolution levels. It is found that RMSE may be expressed as (7.274 1.666S)D/1000 with an R value of 0.9659. The representation accuracy decreases moderately at an intermediate resolution, but sharply at coarse resolutions for all three terrain types. Resolution reduction profoundly affects the gradient determined from the DEM. While exerting little influence on mean gradient, resolution significantly affects the standard deviation of gradient, especially for a simple terrain. The results obtained in this study may be used to determine the DEM resolution that is appropriate to the accuracy requirements of a particular user. 相似文献
13.
东北典型黑土区40年来沟蚀空间格局变化及地形分异规律 总被引:5,自引:0,他引:5
以SPOT5和Corona影像为基础数据源,获取了东北典型黑土区1965年和2005年的侵蚀沟分布数据,生成了侵蚀沟密度空间分布图;基于1∶5万地形图,插值求取DEM,提取了地形因子;最后,在GIS空间分析模块支持下,分析典型黑土区40年来沟蚀空间格局变化及其地形分异规律。结果表明,经过40年的开发,研究区侵蚀沟密度剧增,且各等级侵蚀沟密度都出现向更高一级发展的趋势,呈现出以北西南东向为轴心,从沟蚀剧烈增加区到微度增加区变化特征;沟蚀在垂直方向上具有层状分布规律,在海拔250~275m高度出现密度最大值,说明岗坡地带是黑土区沟蚀易发区;坡度分异表明黑土区侵蚀沟出现向高坡度发展趋势;各坡向上侵蚀沟密度和动态发展状况表明,在东北典型黑土区坡向不是影响侵蚀沟发育的首要因子。 相似文献
14.
等高线曲率是一个重要的地形属性,反应了地形表面在水平方向的凹凸性,表达了地表物质运动的发散和汇合模式。基于安塞县县南沟小流域的矢量等高线数据和DEM,分别利用圆拟合算法(相邻三点法、间隔三点法和最小二乘法)和曲面拟合模型(E模型、S模型和Z模型)提取等高线曲率,通过对实地地形的对比分析,结果表明:(1) 在矢量等高线数据的计算结果中,三点拟合法计算结果相比最小二乘法结果差异大,对等高线曲率空间格局分布描述更准确;(2) 最小二乘法计算的结果频数分布集中程度最高,两种三点拟合法计算结果频数曲线差别微小;(3) 在栅格数字高程模型的计算结果中,基于S模型计算结果在空间格局上较E模型和Z模型的结果差别大,基于E模型的计算结果对等高线曲率描述效果更好。结果能准确说明采用不同算法计算等高线曲率的差别,对在实际数字地形分析中有重要的意义,可为等高线曲率计算提供重要参考。 相似文献
15.
不同分辨率DEM提取地面坡度的不确定性模拟:以在黄土高原的试验为例 总被引:1,自引:0,他引:1
Slope is one of the crucial terrain variables in spatial analysis and land use planning,especially in the Loess Plateau area of China which is suffering from serious soil erosion. DEM based slope extracting method has been widely accepted and applied in practice. However slope accuracy derived from this method usually does not match with its popularity. A quantitative simulation to slope data uncertainty is important not only theoretically but also necessarily to applications. This paper focuses on how resolution and terrain complexity impact on the accuracy of mean slope extracted from DEMs of different resolutions in the Loess Plateau of China. Six typical geomorphologic areas are selected as test areas, representing different terrain types from smooth to rough. Their DEMs are produced from digitizing contours of 1:10,000 scale topographic maps. Field survey results show that 5 m should be the most suitable grid size for representing slope in the Loess Plateau area. Comparative and math-simulation methodology was employed for data processing and analysis. A linear correlativity between mean slope and DEM resolution was found at all test areas,but their regression coefficients related closely with the terrain complexity of the test areas. If taking stream channel density to represent terrain complexity, mean slope error could be regressed against DEM resolution (X) and stream channel density (S) at 8 resolution levels and expressed as (0.0015S2+0.031S-0.0325)X-0.0045S2-0.155S+0.1625, with a R2 value of over 0.98. Practical tests also show an effective result of this model in applications. The new development methodology applied in this study should be helpful to similar researches in spatial data uncertainty investigation. 相似文献
16.
TANGGuoan ZHAOMudan LITianwen LIUYongmei ZHANGTing 《地理学报(英文版)》2003,13(4):387-394
Slope is one of the crucial terrain variables in spatial analysis and land use planning, especially in the Loess Plateau area of China which is suffering from serious soil erosion. DEM based slope extracting method has been widely accepted and applied in practice. However slope accuracy derived from this method usually does not match with its popularity. A quantitative simulation to slope data uncertainty is important not only theoretically but also necessarily to applications. This paper focuses on how resolution and terrain complexity impact on the accuracy of mean slope extracted from DEMs of different resolutions in the Loess Plateau of China. Six typical geomorphologic areas are selected as test areas, representing different terrain types from smooth to rough. Their DEMs are produced from digitizing contours of 1:10,000 scale topographic maps. Field survey results show that 5 m should be the most suitable grid size for representing slope in the Loess Plateau area. Comparative and math-simulation methodology was employed for data processing and analysis. A linear correlativity between mean slope and DEM resolution was found at all test areas, but their regression coefficients related closely with the terrain complexity of the test areas. If taking stream channel density to represent terrain complexity, mean slope error could be regressed against DEM resolution (X) and stream channel density (S) at 8 resolution levels and expressed as(0.0015S2 0.031S-0.0325)X-0.0045S2-0.155S 0.1625, with a R2 value of over 0.98. Practical tests also show an effective result of this model in applications. The new development methodology applied in this study should be helpful to similar researches in spatial data uncertainty investigation. 相似文献
17.
Slope is one of the crucial terrain variables in spatial analysis and land use planning, especially in the Loess Plateau area of China which is suffering from serious soil erosion. DEM based slope extracting method has been widely accepted and applied in practice. However slope accuracy derived from this method usually does not match with its popularity. A quantitative simulation to slope data uncertainty is important not only theoretically but also necessarily to applications. This paper focuses on how resolution and terrain complexity impact on the accuracy of mean slope extracted from DEMs of different resolutions in the Loess Plateau of China. Six typical geomorphologic areas are selected as test areas, representing different terrain types from smooth to rough. Their DEMs are produced from digitizing contours of 1:10,000 scale topographic maps. Field survey results show that 5 m should be the most suitable grid size for representing slope in the Loess Plateau area. Comparative and math-simulation methodology was employed for data processing and analysis. A linear correlativity between mean slope and DEM resolution was found at all test areas, but their regression coefficients related closely with the terrain complexity of the test areas. If taking stream channel density to represent terrain complexity, mean slope error could be regressed against DEM resolution (X) and stream channel density (S) at 8 resolution levels and expressed as (0.0015S2+0.031S-0.0325)X-0.0045S2-0.155S+0.1625, with a R2 value of over 0.98. Practical tests also show an effective result of this model in applications. The new development methodology applied in this study should be helpful to similar researches in spatial data uncertainty investigation. 相似文献
18.
1 Introduction Automated extraction of drainage features from DEMs is an effective alternative to the tedious manual mapping from topographic maps. The derived hydrologic characteristics include stream-channel networks, delineation of catchment boundaries, catchment area, catchment length, stream-channel long profiles and stream order etc. Other important characteristics of river catchments, such as the stream-channel density, stream-channel bifurcation ratios, stream-channel order, number… 相似文献
19.
Hydrologic data derived from digital elevation models (DEM) has been regarded as an effective method in the spatial analysis of geographical information systems (GIS). However, both DEM resolution and terrain complexity has impacts on the accuracy of hydrologic derivatives. In this study, a multi-resolution and multi-relief comparative approach was used as a major methodology to investigate the accuracy of hydrologic data derived from DEMs. The experiment reveals that DEM terrain representation error affects the accuracy of DEM hydrological derivatives (drainage networks and watershed etc.). Coarser DEM resolutions can usually cause worse results. However, uncertain result commonly exists in this calculation. The derivative errors can be found closely related with DEM vertical resolution and terrain roughness. DEM vertical resolution can be found closely related with the accuracy of DEM hydrological derivatives, especially in the smooth plain area. If the mean slope is less than 4 degrees, the derived hydrologic data are usually unreliable. This result may be helpful in estimating the accuracy of the hydrologic derivatives and determining the DEM resolution that is appropriate to the accuracy requirement of a particular user. By applying a threshold value to subset the cells of a higher accumulation flow, a stream network of a specific network density can be extracted. Some very important geomorphologic characteristics, e.g., shallow and deep gullies, can be separately extracted by means of adjusting the threshold value. However, such a flow accumulationbased processing method can not correctly derive those streams that pass through the working area because it is hard to accumulate enough flow direction values to express the stream channels at the stream's entrance area. Consequently, errors will definitely occur at the stream’s entrance area. In addition, erroneous derivatives can also be found in deriving some particular rivers, e.g., perched (hanging up) rivers, anastomosing rivers and braided rivers. Therefore, more work should be done to develop and perfect the algorithms. 相似文献
20.
南极冰盖DEM在南极研究中具有十分重要的作用,而构建南极冰盖DEM的主要数据源来自于卫星测高。在已有的测高卫星数据中,ERS-1/GM和ICESAT在空间分辨率和精度方面存在互补的关系,综合利用这两类数据,是获得南极冰盖高分辨率高精度DEM的前提。本文采用了数据联合的方法,利用ERS-1和ICESAT测高数据来构建南极冰盖DEM。采用ICESAT离散数据和RAMP/DEM v2对综合DEM进行精度评估,结果表明综合DEM高程精度在4 m左右。 相似文献