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1.
城市暴雨内涝是城市最普遍的自然灾害之一。受城市复杂下垫面环境的影响,城市暴雨积水具有响应时间短、淹没速度快的特点。数字高程模型(Digital Elevation Model, DEM)是城市地表汇水分析的关键,是暴雨积水分析的基础,而传统方法构建的DEM不能满足复杂下垫面环境下城市暴雨积水淹没分析的需求。本文以构建顾及地表汇水分析的城市DEM为目的,提出基于多源数据融合思想和地形修正思想的DEM构建方法,即将数字摄影测量技术构建的大范围DEM与车载激光扫描技术构建的城市道路高精度DEM相融合,再利用影响雨水汇流路径的建筑物、水系等要素对DEM进行修正的构建方法。本文以北京市海淀区公主坟地区为例进行研究,结果表明该方法构建的DEM在道路区域高程精度可达厘米级,实现了对城市道路易积水区域的重点表达,基于该DEM的汇水分析结果基本符合城市下垫面汇水特点,因此,本文构建的DEM适用于城市道路、桥区汇水路径分析和积水淹没分析。 相似文献
2.
Assessment of waterlogging risk in Lixiahe region of Jiangsu Province based on AVHRR and MODIS image 总被引:3,自引:0,他引:3
Four images of 1991 AVHRR, 2003 and 2007 MODIS were used to extract waterlogging inundated water of three years, and three inundated water maps were overlaid to estimate waterlogging affected frequency. Based on waterlogging affected frequency, waterlogging hazard of pixel scale was assessed. According to the weighed score of area percentage of different waterlogging affected frequency in 13 counties/cities of Lixiahe region, waterlogging hazard rank of every county/city was assessed. Waterlogging affected frequency map and 1 km× 1 km grid landuse map were used to assess waterlogging risk of pixel scale; and then waterlogging risk rank of every county/city was assessed by the similar method by which waterlogging hazard rank of every county/city was assessed. High risk region is located mainly in core zone of Lixiahe hinterland, medium risk region is adjacent to high risk region, and low risk region is located in the most outlying area of risk zone and mainly in south to middle part of Lixiahe region. Xinghua and Gaoyou belong to high risk city, Jiangyan belongs to medium risk city, and the other counties/cities have low or lower waterlogging risk. The method of assessing waterlogging risk in this paper is simple and applicable. This paper can provide guidance for the waterlogging risk analysis in broader area of Huaihe River Basin. 相似文献
3.
新型格网DEM等高线生成技术与方法 总被引:1,自引:0,他引:1
以格网DEM数据为基础,生成具有良好保凸性、光滑性、平顺性特征的高质量等高线,已逐渐成为制作等高线图的重点。鉴于现有技术方法在沟道、山脊等地形变化部位生成的等高线中存在生硬、相交、异常闭合等问题,本文以黄土丘陵1:5万不同格网分辨率DEM为例,采用对比分析方法,建立了基于DEM格网加密技术的高质量等高线生成方法。实验表明:(1)采用以4×4 DEM格网单元为搜索圆的完全规则样条函数插值法,以可视化时图面0.1 mm的实际距离为加密DEM的格网分辨率值,对DEM格网进行加密处理后生成的等高线具有更为理想的保凸性、光滑性和平顺性特征;(2)对于已知综合尺度的地形,存在最优DEM格网分辨率阈值,若要高质量地再现原始等高线,则实际DEM格网分辨率不得低于最优DEM格网分辨率阈值。 相似文献
4.
THE SIMULATED STORAGE CAPACITY OF FLOOD AND WATERLOGGING IN THE TYPICAL AGRICULTURAL REGION IN JIANGHAN PLAIN 总被引:2,自引:0,他引:2
1INTRODUCTIONJianghanPlainisoneoftheimportantbasesofChina′sagriculturalproductivitylocatedinthemiddleChangjiangRivervalleyofcentralChina.TheJianghanplainapproximately6.6×104km2inareaandover30millioninpopulationistherenowned“countryoffishandrice"in… 相似文献
5.
According to the drought and waterlogging disaster statistics over the last 30 years (1950-1979), the annual average area suffering from drought was about 300 million mu (1 mu= 1/ 15 ha) in the whole country, among which about 100 million mu were disastrous areas where the output reduced more than 30%. and the annual lost grains totalled about 5 billion kg. The waterlogging disaster was less than drought disaster. The area suffering from waterlogging was about 100 million mu, among which 60 million mu were disastrous. Drought and waterlogging disasters affect directly the development of the national economy. So it is important to study drought and waterlogging variations, especially the drought and waterlogging variation laws of the areas where the disasters frequently occur.The historical literatures and recent observation data reveal the fact that there existed drought and waterlogging variations. For example, the occurrence frequency of the outstanding and severe drought years in north China is highe 相似文献
6.
基于条件随机模拟的DEM误差分析——以董志塬水土流失等级划分为例 总被引:1,自引:0,他引:1
DEM是对地球表面的模拟和模型化表达,DEM不可避免的含有误差,且DEM误差具有空间可变性和相关性。常用的DEM误差估算模型为中误差(RMSE),但RMSE为全局变量,无法反映误差的空间性。为了克服RMSE的缺陷,本文采用条件随机模拟实现了DEM误差曲面模拟。通过董志塬水土流失等级划分表明,DEM误差在平坦区域严重影响坡度精度,且坡度最大误差变程大于高程最大误差变程,DEM误差被放大使用概率模型和模糊度模型分析表明,大部分网格点水土流失等级划分均受到DEM误差影响条件随机模型的使用可以让DEM用户更加准确的分析和评价DEM误差对最终决策的影响。 相似文献
7.
TanDEM-X 90 m 数字高程模型(DEM)在其原始雷达影像的采集与DEM产品生产过程中,坡度、坡向和地表覆盖物等 因素都会对误差产生一定的影响。为了便于该数据更好地为各领域的研究提供服务,本文以整个中国大陆为研究区域,运用ICESat/GLA14数据对该区域的TanDEM-X 90 m DEM对应位置的高程数据进行提取统计,对比分析了我国陆地区域 TanDEM-X DEM数据与GLA14高程点数据的整体误差精度,并提取坡度、坡向地形因子,研究TanDEM-X 90 m DEM误差在不同坡度、不同坡向以及不同地表覆盖物影响下的分布规律。结果表明:① TanDEM-X 90 m DEM在中国区域整体的绝对误差均值为3.89 m,中误差为9.03 m,标准差为8.85 m; ② 受地形因子的影响,在坡度<3°时,绝对误差均值仅为1.29 m,标准差为2.84 m; 在坡度>25°时,绝对误差均值20 m以上,标准差也达到30 m左右,即误差随着坡度的上升逐渐增大;③ 坡向对误差也有一定影响,在南北方向的绝对误差均值明显比东西方向小;④ 受地表覆盖物影响较大,在荒地误差最小,绝对误差均值仅为 1.85 m,但在冰川积雪区绝对误差均值达到12.68 m。通过与无人机获取的等高线及剖面图对比分析发现,TanDEM-X 90 m DEM能较好地反映真实地形情况。最后,根据不同影响因素的权值,绘制全国范围的TanDEM-X 90 m DEM误差绝对值分布图,且验证了可靠性。 相似文献
8.
广州城市暴雨内涝时空演变及建设用地扩张的影响 总被引:2,自引:0,他引:2
暴雨内涝是城市常见的“城市病”。本研究通过收集20世纪80年代、90年代,以及2000年之后广州市主城区严重暴雨内涝资料,探索改革开放后广州市暴雨内涝时空演变特征,分析城市建设用地扩张对暴雨内涝的影响。结果表明,20世纪80年代至今,广州市主城区暴雨内涝点在时间和空间2个尺度上有显著的变化。早期内涝点主要集中于市中心的越秀区,随着城市化进程的推进逐渐在白云、天河等城市化较快的区域出现。从1990-2010年,广州市城乡建设用地扩张显著,城市不透水面密度与暴雨内涝点核密度呈正相关。其相关性随城市化发展逐渐增强,表明改革开放后广州市城市的快速扩张,对主城区暴雨内涝点的时空演变有较大的影响。因此,城市暴雨内涝的防治应重视城市不透水面格局的优化和调整。 相似文献
9.
内插模型的精度评价问题一直是DEM内插研究中的热点问题。以往较多的研究关注插值模型本身的精度评价,却忽略了插值模型与应用环境之间的交互作用,例如,普通克里金方法作DEM内插一般精度较差,但是当插值区域平坦时,该方法的插值精度却很高,这表明该方法对平坦地形的插值问题具有较好的适应性。为了分析不同插值模型在不同地形环境下的适用性,本文选取陕北黄土高原地区不同地貌类型的实验样区,应用AMMI模型对不同内插模型的精度,以及对不同地貌类型的适用性进行评价,该模型最大的特点是很好地结合了方差分析与回归分析的特点,特别适合于不同影响因素之间交互作用的分析。实验结果表明,AMMI模型可以有效地分析内插方法与地貌环境对内插精度的交互作用,不同的内插方法对不同的地貌类型区的适用性存在差异。以本文的研究为例,在陕北黄土高原地区最稳定的DEM内插方法是样条函数法,而反距离加权法与Top to Raster方法精度会更高。最后,通过对环境指数与若干地形因子的相关性分析,表明地貌类型区的坡度可以粗略地代表第一环境指数。 相似文献
10.
Uncontrolled coal fires are natural disasters that may cause mineral loss and environmental damage. The traditional loop source transient electromagnetic method can effectively detect the low-resistivity region of coal fires, but its detection efficiency is not so good for high-resistivity regions. In view of this limitation, a technique based on electrical source transient electromagnetics is proposed in this paper to detect high-resistivity regions in the spontaneous combustion process of coal. Considering the complex geometry of the coal fire area, an unstructured tetrahedral grid is used in this study to realize the spatial discretization of the model, and solve the electromagnetic field based on a vector finite element algorithm. Numerical analysis is used to investigate methods for detecting coal fires and the characteristics of effective anomalies are further examined to provide guidance for practical detection. 相似文献
11.
利用DEM分析方法为起伏地形下太阳辐射模拟提供了条件。然而DEM的尺度效应对太阳辐射模拟产生很大的影响。本文以黄土丘陵和秦岭高山为实验样区,以一系列不同分辨率的DEM,模拟日、月及年总天文辐射,比较其误差大小及地形分析的差异。实验结果显示,随着DEM栅格分辨率的降低,天文辐射逐渐增大;当栅格分辨率大于地面相对高差时,模拟的天文辐射基本稳定,坡向、坡度等地形因子对辐射的再分配作用已不显著。黄土丘陵区,当DEM分辨率接近1000m时,天文辐射年总量的相对误差为22%,超过该区域一个冬季的天文辐射量。秦岭山区地表起伏大,误差较黄土丘陵地区小,最大相对误差为17.8%。总之,地表起伏越小,DEM栅格分辨率对太阳辐射模拟的影响越大。 相似文献
12.
针对目前DEM完整性认证的需求,以及相关认证方法的欠缺,基于脆弱水印技术提出了一种充分顾及DEM地形特征的完整性认证算法.本文对DEM数据进行特征分析,进而提出与其相适应的脆弱水印技术的特殊要求.为了减少水印嵌入对载体数据的影响,在脆弱水印嵌入过程中,首先,提取DEM数据特征线,并依此将数据分为特征区域和非特征区域2部分;然后,根据特征区域的栅格数和水印序列段生成脆弱水印,并以LSB位平面替换的方法,将水印信息嵌入到非特征区域部分.在完整性认证过程中,同样提取DEM数据的特征区域,将重新生成的水印信息与提取的水印信息进行对比,从而判断数据的完整性.算法实验结果表明,其能有效认证DEM数据的完整性,对数据影响较小,且算法安全性和适用性较强. 相似文献
13.
正六边形格网由于各向同性、邻接等效、拟合精度高等优点,被作为规则格网DEM数据结构的格网单元,已应用到流向分析、谷地线提取等数字地形分析中,但是其质量检测评价仍没有得到很好的研究,DEM的质量直接影响到后续数据分析结果以及相关决策的正确性与可靠性。使用常规的方法如检查点法、剖面法只能在局部评价DEM的误差情况,无法全面的评价DEM的质量。而等高线能够反映地形地貌的整体情况,因此等高线回放法通过分析回放等高线的质量,进而检测评价DEM的质量,是评价DEM质量的一种相对全面准确的方法。因此,本文将顶点高差标记法应用到六边形DEM格网结构中,为正六边形规则格网DEM提出了一种等高线生成算法,并对正六边形格网DEM的数据质量进行评价和分析。首先,本文利用生成等高线拓扑正确性、与原始等高线贴合度以及弯曲特征保持情况3个指标以评价六边形格网结构下的基于顶点高差标记法所追踪的等高线,其具有无自相交等拓扑错误、与原始等高线贴合度高、弯曲特征保持情况良好等特点,证明了该算法的可行性。此外,本文将该生成方法应用到不同规则格网DEM质量对比中,即基于顶点高差标记方法分别生成四边形DEM和六边形DEM的等高线,并基于上述3个指标对比六边形DEM和四边形DEM生成等高线的质量,从而进行六边形DEM和四边形DEM的质量差异比较,实验比较表明,在相同分辨率下,六边形DEM回放的等高线与原始等高线的贴合度更高,弯曲特征保持情况更好,并且随着分辨率的降低,其贴合度降低幅度较小,弯曲特征丧失较少,并未出现尖角化、形状过度变形等情况,因此六边形DEM的质量优于四边形DEM,并且随着分辨率降低,六边形DEM的精度折损程度更小。 相似文献
14.
《山地科学学报》2021,(10)
Spatial interpolation is an important method in the process of DEM construction. However, DEMs constructed by interpolation methods may induce serious distortion of surface morphology in areas lack of terrain data. In order to solve this problem, this paper proposes a strategy combining high-accuracy surface modeling(HASM) and classical interpolation methods to construct DEM. Firstly, a triangulated irregular network(TIN) is built based on the original terrain data, and the area of the triangles in the TIN is used to determine whether to add supplementary altimetric points(SA-Points). Then, classical interpolation methods, such as Inverse Distance Weighted(IDW) method, Kriging, and Spline, are applied to assign elevation values to the SA-Points. Finally, the SA-Points are merged with the original terrain data, and HASM is used to construct DEM. In this research, two test areas which are located in Nanjing suburb in Jiangsu Province and Guiyang suburb in Guizhou Province are selected to verify the feasibility of the new strategy. The study results show that:(1) The combination of HASM and classical interpolation methods can significantly improve the elevation accuracy of DEMs compared with DEM constructed by a single method.(2) The process of adding SA-Points proposed in this study can be repeated in many times. For the test areas in this paper, compared with the results with only one execution, the results with more executions are in much more accordance with the actual terrain.(3) Among all the methods discussed in this paper, the one combined HASM and Kriging produce the best result. Compared with the HASM alone, absolute mean error(MAE) and root mean square error(RMSE) of the best result were reduced from 1.29 m and 1.83 m to 0.68 m and 0.45 m(the first test area), and from 0.32 m and 0.38 m to 0.21 m and 0.28 m( The second test area). 相似文献
15.
Due to rapid urbanization, waterlogging induced by torrential rainfall has become a global concern and a potential risk affecting urban habitant’s safety. Widespread waterlogging disasters have occurred almost annually in the urban area of Beijing, the capital of China. Based on a self-organizing map (SOM) artificial neural network (ANN), a graded waterlogging risk assessment was conducted on 56 low-lying points in Beijing, China. Social risk factors, such as Gross domestic product (GDP), population density, and traffic congestion, were utilized as input datasets in this study. The results indicate that SOM-ANN is suitable for automatically and quantitatively assessing risks associated with waterlogging. The greatest advantage of SOM-ANN in the assessment of waterlogging risk is that a priori knowledge about classification categories and assessment indicator weights is not needed. As a result, SOM-ANN can effectively overcome interference from subjective factors, producing classification results that are more objective and accurate. In this paper, the risk level of waterlogging in Beijing was divided into five grades. The points that were assigned risk grades of IV or V were located mainly in the districts of Chaoyang, Haidian, Xicheng, and Dongcheng. 相似文献
16.
Spectral remote sensing technique is usually used to monitor flood and waterlogging disaster. Although spectral remote sensing
data have many advantages for ground information observation, such as real time and high spatial resolution, they are often
interfered by clouds, haze and rain. As a result, it is very difficult to retrieve ground information from spectral remote
sensing data under those conditions. Compared with spectral remote sensing technique, passive microwave remote sensing technique
has obvious superiority in most weather conditions. However, the main drawback of passive microwave remote sensing is the
extreme low spatial resolution. Considering the wide application of the Advanced Microwave Scanning Radiometer-Earth Observing
System (AMSR-E) data, an AMSR-E data unmixing method was proposed in this paper based on Bellerby’s algorithm. By utilizing
the surface type classification results with high spatial resolution, the proposed unmixing method can obtain the component
brightness temperature and corresponding spatial position distribution, which effectively improve the spatial resolution of
passive microwave remote sensing data. Through researching the AMSR-E unmixed data of Yongji County, Jilin Provinc, Northeast
China after the worst flood and waterlogging disaster occurred on July 28, 2010, the experimental results demonstrated that
the AMSR-E unmixed data could effectively evaluate the flood and waterlogging disaster. 相似文献
17.
许朋柱 《中国地理科学(英文版)》1996,(1)
IMPACTOFFUTURESEALEVELRISEONFLOODANDWATERLOGGINGDISASTERSINLIXIAHEREGION许朋柱IMPACTOFFUTURESEALEVELRISEONFLOODANDWATERLOGGINGDI... 相似文献
18.
DEM地表形态精度分析理论与方法的建立,对DEM数据的生产和广泛应用具有重要意义。本文从局地坡面形态的凸凹性角度,剖析规则格网DEM格网点位置、格网分辨率对DEM局地坡面凸凹性的影响,以期进一步完善和发展DEM质量分析的理论与方法。论文首先阐述了DEM局地坡面凸凹性的基本概念,研究建立了规则格网DEM的局地坡面凸凹性量化分析方法,并以黄土丘陵5、10、15、25、……、155 m DEM为例,采用比较分析方法研究了局地坡面凸凹性随DEM格网点位置和格网分辨率的变化特征。研究表明:对于本研究中的1:5万DEM,10 m(跃变率≤0.3%)是其最佳的格网分辨率阈值,当DEM实际格网分辨率高于该阈值时,实际DEM与最佳格网分辨率DEM具有近乎相同的局地坡面凸凹性,主要在正地形与负地形的过渡区域会发生不同程度的坡面凸凹性变化;当DEM实际格网分辨率低于该阈值时,实际DEM的局地坡面凸凹性,会随着DEM格网点布设位置和DEM格网分辨率发生较大的不确定性变化。 相似文献
19.
从全球地震频发地区选取多次地震事件,以精河地震为例研究基于DEM进行大气误差校正时拟合区选取方法;然后分别基于DEM和GACOS数据对同震形变场进行大气相位延迟改正以分析其校正精度及适用性。结果表明,扣除主要同震形变区域后的相位-高程相关系数大于0.4时,必须对获取的形变场进行大气误差校正,校正后噪声可下降约1~4 cm;相关系数为0.4~0.8时,可通过两种方法相互验证以校正精度;相关系数大于0.8时,可以只使用DEM拟合大气误差分布函数进行校正。基于GACOS进行大气误差校正具有普适性,用于大气噪声较为严重且与地形不相关的平原地区可取得较好效果。 相似文献
20.
Pengzhu Xu 《中国地理科学(英文版)》1995,6(1):35-48
Lixiahe region is one of the susceptible area to flood and waterlogging disasters in China due to its low topographic relief and having difficulty in draining floodwater away. The condition will be more serious if sea level rises in the future. The estimated results by some scientists indicate that the sea level could rise probably 20–100 cm by 2050. However, what the effect will future sea level rise exerts on flood drainage and on flood or waterlogging disasters? A hydrological system model has been developed to study the problem in the lower reaches of the Sheyang River basin. Predicted results from the model show that, if sea level rises, drainage capacity of each drainage river will decrease obviously, and the water level will also rise. From the change of drainage capacity of drainage rivers the trends of flood and waterlogging disasters are analyzed in the paper if the severe flood that happened in the past meets with future sea level rise. Some countermeasures for disaster reduction and prevention against sea-level rise are put forward. 相似文献