基于资源三号卫星影像的数字高程模型外推实验精度分析

目前,充分利用国产卫星影像,逐步减少使用国外遥感影像,是我国现代测绘产业发展的大趋势。本文基于资源三号国产卫星影像,利用已有的控制点资料,分别基于有控、无控的条件下生成DEM,分析其精度;并在研究区北部边缘选取部分控制点,通过区域网平差,对控制区域进行外推,生成DEM;再利用其余的控制点作为检查点对DEM精度进行检测,分析DEM在外推约100 km范围内的精度能够满足怎样的精度要求。     

基于天绘卫星影像的困难地区地形图测制方法

介绍了基于天绘影像的困难地区地形图测制技术,针对困难地区地形图的特点,分析影响地形图测制的因素,总结了提高困难地区地形图成果质量的方法。     

WorldView-Ⅲ卫星遥感数据在油气管道行业的应用与研究

建设油气输送管道需依据一定比例尺的带状地形图进行施工图设计,本文以WorldView-Ⅲ卫星0.31 m分辨率的遥感立体像对为数据源,利用MapMatrix遥感影像数据处理平台进行立体数据采集,采用AutoCAD和南方CASS软件进行数据编辑,输出满足需要的DLG(数字线划图)。通过比对地面检查点与DLG成果来研究所得DLG的平面和高程精度,为高分辨率遥感技术在油气输送管道行业探索了新的应用方向。     

Monitoring canopy growth and grain yield of paddy rice in South Korea by using the GRAMI model and high spatial resolution imagery

Monitoring crop conditions and forecasting crop yields are both important for assessing crop production and for determining appropriate agricultural management practices; however, remote sensing is limited by the resolution, timing, and coverage of satellite images, and crop modeling is limited in its application at regional scales. To resolve these issues, the Gramineae (GRAMI)-rice model, which utilizes remote sensing data, was used in an effort to combine the complementary techniques of remote sensing and crop modeling. The model was then investigated for its capability to monitor canopy growth and estimate the grain yield of rice (Oryza sativa), at both the field and the regional scales, by using remote sensing images with high spatial resolution. The field scale investigation was performed using unmanned aerial vehicle (UAV) images, and the regional-scale investigation was performed using RapidEye satellite images. Simulated grain yields at the field scale were not significantly different (p = 0.45, p = 0.27, and p = 0.52) from the corresponding measured grain yields according to paired t-tests (α = 0.05). The model’s projections of grain yield at the regional scale represented the spatial grain yield variation of the corresponding field conditions to within ±1 standard deviation. Therefore, based on mapping the growth and grain yield of rice at both field and regional scales of interest within coverages of a UAV or the RapidEye satellite, our results demonstrate the applicability of the GRAMI-rice model to the monitoring and prediction of rice growth and grain yield at different spatial scales. In addition, the GRAMI-rice model is capable of reproducing seasonal variations in rice growth and grain yield at different spatial scales.     

随机Dirichlet问题解的调和展开

针对重力学随机Dirichlet问题,通过适当地对边界检验函数的分解,并在随机边界样本空间中提取确定性部分的对偶基,本文将随机Dirichlet问题的一般解展开为一随机系数的调和级数形式。     

卫星测高推求的中国近海与全球海平面变化的趋势及小波相关分析

基于多种卫星测高资料融合海面高数据对黄海、东海、南海和全球海平面异常在1993年至2005年期间的变化趋势进行分析,结果表明:黄海、东海、南海线性趋势分别为5.05mm/a,4.8mm/a,4.27mm/a,均大于全球平均趋势项2.66mm/a,各海域的周期振幅和相位变化也存在较大差异。近海各海域与全球的海平面异常的小波交叉谱和相关谱分析表明,近海各海域与全球海平面异常变化在年际周期上具有较高的谱能,但相位差异较大,短周期相关性不明显。     

基于Oracle Spatial的多元重力场信息数据库的设计与应用

随着地球重力场信息多元化的发展及其应用领域越来越广,科学高效的管理和应用重力场信息数据就显得尤为重要。文中介绍了基于Oracle Spatial技术设计与构建的重力场信息数据库的结构框架,分析了存储数据信息的种类、属性及特点,研究了数据的存储方式。在多元化重力场数据与基础地图数据统一管理的基础上,初步实现了多元化重力场信息的存储、查询、计算、绘图及显示等功能。     

Modeling errors in upward continuation for INS gravity compensation

Accurate upward continuation of gravity anomalies supports future precision, free-inertial navigation systems, since the latter cannot by themselves sense the gravitational field and thus require appropriate gravity compensation. This compensation is in the form of horizontal gravity components. An analysis of the model errors in upward continuation using derivatives of the standard Pizzetti integral solution (spherical approximation) shows that discretization of the data and truncation of the integral are the major sources of error in the predicted horizontal components of the gravity disturbance. The irregular shape of the data boundary, even the relatively rough topography of a simulated mountainous region, has only secondary effect, except when the data resolution is very high (small discretization error). Other errors due to spherical approximation are even less important. The analysis excluded all measurement errors in the gravity anomaly data in order to quantify just the model errors. Based on a consistent gravity field/topographic surface simulation, upward continuation errors in the derivatives of the Pizzetti integral to mean altitudes of about 3,000 and 1,500 m above the mean surface ranged from less than 1 mGal (standard deviation) to less than 2 mGal (standard deviation), respectively, in the case of 2 arcmin data resolution. Least-squares collocation performs better than this, but may require significantly greater computational resources.     

Correcting superconducting gravity time-series using rainfall modelling at the Vienna and Membach stations and application to Earth tide analysis

We demonstrate the possibility to improve the signal-to-noise ratio of superconducting gravity time-series by correcting for local hydrological effects. Short-term atmospheric events associated with heavy rain induce step-like gravity signals that deteriorate the frequency spectrum estimates. Based on 4D modeling constrained by high temporal resolution rain gauge data, rainfall admittances for the Vienna and Membach superconducting gravity stations are calculated. This allows routine correction for Newtonian rain water effects, which reduces the standard deviation of residuals after tidal parameter adjustment by 10%. It also improves the correction of steps of instrumental origin when they coincide with step-like water mass signals.     

GOCE重力卫星在军事上的应用前景分析

对GOCE重力卫星进行了详细的介绍;分析了星上载荷的配置和功能.结合GOCE任务的科学目标,详细分析了其在军事上的应用前景,并列出了军事上重要的应用方向.希望广大测量界人士对GoCE重力卫星应用领域进行更多的利用.