共查询到20条相似文献,搜索用时 234 毫秒
1.
图像获取条件对SPOT景像的构成有极大影响,也直接影响对SPOT图像的处理方法。SPOT图像的辅助数据在解析或数字处理中有重要应用。本文对SPOT卫星与视点间的地心角、节距角ω卫星与视点的纬度差异、景像方位角T、景像尺寸和SPOT图像格网参考系统GRS中(K,J)与(λ, B)换算公式进行了推证和分析,并以SPOT辅助数据验证了(K,J)与(λ,B)换算的精度。 相似文献
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根据高光谱分辨率的航空成像光谱(MAIS)和热红外多光谱(TIMS)图像数据中遥感信息特点,即可从其数据获得成像地物光谱,利用航空成像光谱图像处理和分析方法,可有效和精确地对地物特性进行识别和提取。此次以调查沉积岩地区地质地层单元、岩性识别为研究内容的中日联合遥感研究所采用的图像数据,是由中国科学院上海技术物理研究所新开发的MAIS和TIMS获取的。研究结果表明,利用计算机图像处理方法,对TIMS图像进行主成分分析(PC),MAIS的短波红外(SWIR)图像的假彩色合成图(FCC),以及可见近红外(VNIR)图像波段差值处理,可将研究区内出露的白云岩、灰岩以及红色砂岩、绿色砂岩等岩性识别出来,同时圈出了研究区内出露的各个时代的地层,证明了MAIS和TIMS在地质制图方面有较大的潜力。 相似文献
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江宁土地利用动态变化研究 总被引:1,自引:0,他引:1
根据中德国际使用项目“江宁县土地利用与可持续发展”(SILUP)的部分研究内容,利用现有资源及陆地卫星TM、SPOT图像数据,对近年来江宁土利用动态变化进行了系统对比与分析,结果表明,随着江宁经济的飞速发展,可耕地的面积在逐渐和,地土的合理规划与利用在可持续发展中显得尤为重要。 相似文献
4.
利用MIVIS数据进行遥感图像模拟的研究 总被引:12,自引:0,他引:12
本文研究利用机载MIVIS超光谱成像系统数据,运用光谱模拟,大气改正的方法,定量模拟了SPOT-HRV XS1、XS2、XS3的地面反射率图像,并将模拟结果与相应的地面反射率实测值进行了对比。同时对成像系统MTF的影响也进行了定量模拟分析。试验结果显示,SPOT图像的模拟值与地面实测值相一致。 相似文献
5.
遥感与地理信息系统(GIS)在调查国土资源与环境中得到应用。本文介绍利用陆地卫星TM图像判绘1:25万重要线状地物的新工艺和新技术,并与常规方法做了比较。 相似文献
6.
利用卫星遥感数据制作复杂地形环境的植被图面临的最主要问题是精度,单纯对遥感数据(TM或SPOI)进行监督或非监督分类的精度低于50%。本文选择美国亚利桑那州SantaCatalina山脉的PuschRidge作为研究区,分析地理信息系统模型在改善植被分类精度中的作用。结果表明,通过结合辅助数据和应用地理信息系统模型,其精度可以从37.41%提高到71.67%(SPOT数据,非监督分类),或从50.07%提高到61.50%(TM数据,监督分类)。同时表明用SPOT数据进行山区植被制图的效果好于TM数据。 相似文献
7.
专题地图绘图系统(TMMS)的基本功能艾自兴,郭庆胜(武汉测绘科技大学)一、引言机助制图的讯速发展.使地图绘制自动化逐步进入了实用化阶段。专题编图的最终成果是专题地图。根据对专题数据的分析处理结果绘出相应的专题地图,是专题地图绘图系统(TMMS)的主... 相似文献
8.
应用遥感信息复合方法的森林分类和动态监测研究 总被引:4,自引:0,他引:4
在森林资源清查和动态监测中,一般要求能识别树种、在树种复杂时也要求识别到树种组。成图时要求可直接使用几何精度高、类型边界清晰的中比例尺如1:2.5万的影像图。为了满足生产的需要,我们进行了遥感信息复合、遥感与非遥感信息复合及复合方法等实用技术应用的研究。实验中应用了MSS与TM卫星图像、TM不同时相的图像、TM与Spot的复合,及复合前后信息特征变化的定量分析等研究。从而为最优波段组合、特征信息提取方法提供了基础。在动态分析中主要进行了采伐迹地、林墙、迹地更新等方面的测定,并对测定精度进行了评估。 相似文献
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SA对GPS静态相对定位的影响 总被引:1,自引:0,他引:1
我们对在GPS卫星上实施“选择用户”(SA)对南加州常设GPS大地测量阵(PGGA)测站的日常相对定位的影响,已进行了实验检测。PGGA于1990年2月开始工作。日常数据采集由Scripps海洋学研究所(SIO)和喷气推进实验室(JPL)从设置在JPL,SIO和PinonFlat观测站的三台Rogue SNR-8接收机,以及设置在加利福尼亚,马萨诸塞和佛罗里达的CIGNET踊跟踪站的上的三台Min 相似文献
11.
Temporal and spatial relationships between soil erosion and ecological restoration in semi-arid regions: a case study in northern Shaanxi,China 总被引:1,自引:0,他引:1
Xin Wen 《地理信息系统科学与遥感》2020,57(4):572-590
ABSTRACTTo assess the effects of the Grain for Green Program (GGP) on soil erosion is essential to support better land management policies in the Chinese Loess Plateau. Studies on the evaluation of the effects of the GGP on soil erosion have garnered heightened attention. However, few studies examined the efficiency of GGP on soil erosion control through spatial relationship analysis. Thus, this study focuses on analyzing the spatial variation relationship between soil erosion and GGP in northern Shaanxi, Chinese Loess Plateau, from 1988 to 2015. The Universal Soil Loss Equation was used to quantify changes in soil erosion at the regional and watershed scales, and the Geographically Weighted Regression model was used to analyze the spatial relationships between land use and land cover (LULC) and soil erosion. Our results indicated that the major characteristic of LULC change during the GGP was a rapid increase of vegetation area and a rapid decrease of cropland. Bare lands contributed to the most serious soil loss, followed by croplands and sparse grasslands. The GGP had a globally positive influence on the decrease in soil erosion over the study area, but the amount of soil erosion in western and northern regions maintained a severe level. Spatial heterogeneity in the nature of the relationships among different vegetation, croplands, and soil erosion was also observed. The change rate of wood and the change rate of soil erosion in northern sub-watershed represented a negative relationship, while the change rate of sparse grassland was negatively correlated to the change rate of soil erosion in 21 sub-watersheds, account for 72% of the study area. The GGP implemented in northern sub-watersheds were more effective for soil erosion control than southern sub-watersheds. We propose that current areas of vegetation can support soil erosion control in the whole northern Shaanxi, but local-scale ecological restoration can be considered in northern sub-watersheds. 相似文献
12.
The quantitative assessment of spatial soil erosion is valuable information to control the erosion. The study area in a part of Narmada river in central India is selected. The main objective is to assess and compare the results obtained from three soil erosion models using GIS platform. Variation in the rate of erosion of the three models is compared considering varying slope, soil and land use of the area. Three models selected are Morgan–Morgan–Finney (MMF), Universal Soil Loss Equation (USLE) and Revised Universal Soil Loss Equation (RUSLE). The best fit or the most reliable model for the study area is selected after validation with the observed sedimentation data. The results give –39.45%, –9.60% and 4.80% difference in the values of sedimentation by MMF, USLE and RUSLE, respectively, from the observed data. Finally, RUSLE model has been found to be most reliable for the study area. 相似文献
13.
长江上游小流域土壤侵蚀动态模拟与分析 总被引:1,自引:0,他引:1
以长江上游甘肃省尚沟流域为研究区,在遥感影像和GIS空间分析技术支撑下,根据USLE因子算法生成各因子栅格图,借助地图代数运算,估算了尚沟流域1998年和2004年的土壤侵蚀量,并对2004年土壤侵蚀与其环境背景因子进行叠加和空间统计分析。在此基础上,构建了与GIS软件平台集成的地理元胞自动机,模拟了该流域2004年、2010年和2020年土壤侵蚀空间演化情形。结果表明:研究区平均侵蚀量从1998年的6598.1t/km2下降到2004年的5923.3t/km2,侵蚀面积净减少172.3hm2,输沙量减少9.15×104t;1300~1400m的海拔高程带、25~35°坡度带、南坡和旱耕地是发生水土流失的主要区域;经模拟,2010年总侵蚀面积为93.49km2,侵蚀总量73.15×104t,侵蚀模数为5126t/km2,土壤侵蚀状况总体上将有所减缓。 相似文献
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《地理信息系统科学与遥感》2013,50(4):388-410
Soil erosion is a prominent cause of land degradation and desertification in Mediterranean countries. The detrimental effects of soil erosion are exemplified in climate (in particular climate change), topography, human activities, and natural disasters. Forest fires, which are an integral part of Mediterranean ecosystems, are responsible for the destruction of above-and below-ground vegetation that protects against soil erosion. Under this perspective, the estimation of potential soil erosion, especially after fire events, is critical for identifying watersheds that require management to prevent sediment loss, flooding, and increased ecosystem degradation. The objective of this study was to model the potential post-fire soil erosion risk following a large and intensive wildland fire, in order to prioritize protection and management actions at the watershed level in a Mediterranean landscape. Burn severity and preand post-fire land cover/uses were mapped using an ASTER image acquired two years before the fire, air photos acquired shortly after the fire, and a Landsat TM image acquired within one month after-fire. We estimated pre-and post-fire sediment loss using an integrated GIS-based approach, and additionally we analyzed landscape erosion patterns. The overall accuracy of the severity map reached 83%. Severe and heavy potential erosion classes covered approximately 90% of the total area following the fire, compared to 55% before. The fire had a profound effect on the spatial erosion pattern by altering the distribution of the potential erosion classes in 21 out of 24 watersheds, and seven watersheds were identified as being the most vulnerable to post-fire soil erosion. The spatial pattern of the erosion process is important because landscape cover heterogeneity induced especially by fire is a dominant factor controlling runoff generation and erosion rate, and should be considered in post-fire erosion risk assessment. 相似文献
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Integrated approach of using remote sensing and GIS to study watershed prioritization and productivity 总被引:1,自引:0,他引:1
Soil data obtained from soil resource inventory, land and climate were derived from the remote sensing satellite data (Landsat
TM, bands 1 to 7) and were integrated in GIS environment to obtain the soil erosion loss using USLE model for the watershed
area. The priorities of different sub-watershed areas for soil conservation measures were identified. Land productivity index
was also used as a measure for land evaluation. Different soil and land attribute maps were generated in GIS, and R,K,LS,C
and P factor maps were derived. By integrating these soil erosion map was generated. The mapping units, found not suitable
for agriculture production, were delineated and mapped as non-arable land. The area suitable for agricultural production was
carved out for imparting the productivity analysis; the land suitable for raising agricultural crops was delineated into different
mapping units as productivity ratings good, fair, moderate and poor. The analysis performed using remote sensing and GIS helped
to generate the attribute maps with more accuracy and the ability of integrating these in GIS environment provided the ease
to get the required kind of analysis. Conventional methods of land evaluation procedures in terms of either soil erosion or
productivity are found not comparable with the out put generated by using remote sensing and GIS as the limitations in generating
the attribute maps and their integration. The results obtained in this case study show the use of different kinds of data
derived from different sources in land evaluation appraisals. 相似文献
17.
Soil erosion prediction based on land cover dynamics at the Semenyih watershed in Malaysia using LTM and USLE models 总被引:1,自引:0,他引:1
This study attempts to identify and forecast future land cover (LC) by using the Land Transformation Model (LTM), which considers pixel changes in the past and makes predictions using influential spatial features. LTM applies the Artificial Neural Networks algorithm) in conducting the analysis. In line with these objectives, two satellite images (Spot 5 acquired in 2004 and 2010) were classified using the Maximum Likelihood method for the change detection analysis. Consequently, LC maps from 2004 to 2010 with six classes (forest, agriculture, oil palm cultivations, open area, urban, and water bodies) were generated from the test area. A prediction was made on the actual soil erosion and the soil erosion rate using the Universal Soil Loss Equation (USLE) combined with remote sensing and GIS in the Semenyih watershed for 2004 and 2010 and projected to 2016. Actual and potential soil erosion maps from 2004 to 2010 and projected to 2016 were eventually generated. The results of the LC change detections indicated that three major changes were predicted from 2004 to 2016 (a period of 12 years): (1) forest cover and open area significantly decreased at rates of almost 30 and 8 km2, respectively; (2) cultivated land and oil palm have shown an increment in sizes at rates of 25.02 and 5.77 km2, respectively; and, (3) settlement and Urbanization has intensified also by almost 5 km2. Soil erosion risk analysis results also showed that the Semenyih basin exhibited an average annual soil erosion between 143.35 ton ha?1 year?1 in 2004 and 151 in 2010, followed by the expected 162.24 ton ha?1 year?1. These results indicated that Semenyih is prone to water erosion by 2016. The wide range of erosion classes were estimated at a very low level (0–1 t/ha/year) and mainly located on steep lands and forest areas. This study has shown that using both LTM and USLE in combination with remote sensing and GIS is a suitable method for forecasting LC and accurately measuring the amount of soil losses in the future. 相似文献
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遥感和GIS支持下的中国退耕还林还草决策分析 总被引:29,自引:1,他引:29
1998年的特大洪水灾害,以及2000年京津地区的沙尘暴,使得中国政府对生态环境的建设更加重视。为了改善中国的生态环境,就需要恢复植被,一些耕地就需要退耕还林还草。哪些耕地需要退耕还林还草,这些耕地在空间上的分布情况如何?为此,探讨了利用地理信息系统技术确定需要退耕还林还草耕地的数量及其空间分布。包括4个步骤。首先,建立土地利用、土壤侵蚀、数字高程、坡度、坡向、植被指数、降雨和温度等数据库,并对生态环境质量进行评价,从而得到生态环境质量数据库;其次,从土地利用数据库中提取旱地的数据,并与坡度数据、土壤侵蚀数据、植被指数数据和生态环境质量数据进行叠加分析;再次,确定退耕还林还草的原则,并在GIS的支持下,确定需要退耕还林还草的面积及其空间分布;最后,利用降雨数据进一步分别确定退耕还林或还草的面积及其空间分布。该研究结果可以为中国的生态环境建设提供科学的决策依据。 相似文献
19.
M. S. S. Nagaraju G. P. Obi Reddy A. K. Maji Rajeev Srivastava P. Raja A. K. Barthwal 《Journal of the Indian Society of Remote Sensing》2011,39(1):51-61
The study area is characterized by low and fluctuating rainfall pattern, thin soil cover, predominantly rain-fed farming with low productivity coupled with intensive mining activities, urbanization, deforestation, wastelands and unwise utilization of natural resources causing human induced environmental degradation and ecological imbalances, that warrant sustainable development and optimum management of land resources. Spatial information related to existing geology, land use/land cover, physiography, slope and soils has been derived through remote sensing, collateral data and field survey and used as inputs in a widely used erosion model (Universal Soil Loss Equation) in India to compute soil loss (t/ha/yr) in GIS. The study area has been delineated into very slight (<5 t/ha/yr), slight (5–10 t/ha/yr), moderate (10–15 t/ha/yr), moderately severe (15–20 t/ha/yr), severe (20–40 t/ha/yr) and very severe (>40 t/ha/yr) soil erosion classes. The study indicate that 45.4 thousand ha. (13.7% of TGA) is under moderate, moderately severe, severe and very severe soil erosion categories. The physiographic unit wise analysis of soil loss in different landscapes have indicated the sensitive areas, that has helped to prioritize development and management plans for soil and water conservation measures and suitable interventions like afforestation, agro-forestry, agri-horticulture, silvipasture systems which will result in the improvement of productivity of these lands, protect the environment from further degradation and for the ecological sustenance. 相似文献
20.
基于SPOT 5和北京一号小卫星数据的北京北部山区土壤侵蚀变化研究 总被引:2,自引:0,他引:2
利用2004年10月SPOT 5卫星影像及2007年9月北京一号小卫星多光谱和全色影像,以植被覆盖度、坡度、土壤可蚀性和土地利用4种影响因子作为辅助数据,进行土壤侵蚀信息提取。利用所提取的信息,分析2004~2007年北京北部山区土壤侵蚀在空间、面积上的变化状况、强度类型转化状况以及变化的驱动力。分析结果表明,北京北部山区土壤侵蚀主要为轻度侵蚀与中度侵蚀,以轻度侵蚀为主; 2004~2007年北京北部山区虽然局部地区土壤侵蚀强度增强,但土壤侵蚀总面积减少,大体上呈中度→轻度→微度发展趋势,总体状况得到明显改善。 相似文献