地球空间信息相关论文摘要

一种基于谷地填充的DEM综合方法;GOCE卫星轨道摄动的数值模拟与分析;全球地图第一版中国土地覆盖产品的生成;GPS信号载噪比估计算法的研究;基于支持向量机的景象匹配区选择方法     

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RTK GPS在超短基线声学定位系统安装校准中的应用

超短基线（uhra short base line,USBL）声学定位系统的换能器安装是具有一定方向性的,但是,在安装过程中,不能保证换能器方向与船艏方向严格一致,必然存在不可忽视的系统误差,影响了测量精度;因此,必须通过校准消除系统误差。本文应用高精度RTKGPS实现了换能器安装方向的校准,取得了满意的结果。     

应变分析法与GPS网优化设计

本文借助于弹性力学应变分析理论，提出ＧＰＳ网应变强度分析法，建立了对应于椭球微分坐标系的“位移－应变”数学模型，分析了ＧＰＳ模拟网应变强度的分布情况，得出一些有益的结论。     

利用GPS水准控制山区高程——以陕西丁家林金矿区为例

应用GPS水准控制山区高程的基本原理是当GPS点布设成一定区域时，可以用数学曲面拟合法求待定点的正常高，根据测区中已知点的平面坐标或大地坐标和高程异常值，用数字拟合法求出该区似大地水准面，得出等求点的正常高。在陕西丁家林金矿区实验结果表明，该方法与传统的三角高程控制法相比，无论在平原或在山区都能获得较好精度。因此，用GPS水准可替代几何水准。     

海原-六盘山断裂带现今地震危险性的数值模拟分析

基于正交各向异性理论表征断层的变形行为,将平行断层面的剪切模量和周围介质剪切模量的比值作为反演参数,以海原-六盘山断裂附近现今GPS观测地壳水平运动速度场作为约束,通过构建三维有限元模型,采用遗传算法,反演了海原-六盘山断裂平行断层面的剪切模量分布.结果显示:六盘山断裂中南段平行断层面剪切模量与周围介质接近,且沿断层面...     

GPS电子地图的设计与实现

随着计算机科学技术和地理信息系统以及全球卫星定位系统（ＧＰＳ）的发展,产生了一门新的应用领域———ＧＰＳ电子地图．根据电子地图的特点,介绍了自行开发设计的ＧＰＳ电子地图系统的结构、功能及实现方法．     

文登市全面启用C级GPS网和三等水准网成果

文登市南海新区是文登市发展的新亮点,为搞好新区建设,统一基础测绘成果,文登市国土局按照省国土资源厅下发的《关于公布启用金省C级GPS网和三等水准网成果的通知》,通知有关单位对文登市南海新区181．9km^2率先启用C级GPS网和三等水准网成果。文登市国土局要求各测绘单位充分认识该成果对提高测绘成果精度的重要作用,规范C级GPS网和三等水准网成果使用和管理。     

Advances, Problems and Prospects of Modern Geodesy Applied in Tibetan Geodynamic Changes

Modern geodetic techniques have developed rapidly in recent years, providing reliable observation data and new effective approaches, and greatly enhancing studies of the Tibetan geodynamics. For instance, the well-known GPS technique has been employed to measure seismic slips for many faults in the Tibetan Plateau. GPS data agree well with the hypothesis of a thickening crust and eastward mass flow. Moreover, absolute gravimetric data have been applied to interpret geophysical phenomena such as crust movement, co-seismic gravity change, GIA, and ground water change. The satellite gravity mission GRACE launched in 2002 provided global gravity models with unprecedentedly high precision and high spatial resolution. It has been used in implementing temporal gravity changes and improving our knowledge of the Earth’s interior, including lithosphere dynamics, mantle viscosity and rheology, plateau uplift, and subduction processing. It is noteworthy that gravity presents unique advantages for the study of Tibetan geodynamics because of its sensitivity to mass migration and dynamic redistribution. To date, great advances have been made in applying modern geodetic data in studying dynamic changes of Tibetan plateau. For instance, the horizontal displacement field from GPS data revealed dynamical characteristics of the present-day Tibetan plateau. The combination of gravity anomalies and topographic data describe the tectonic characteristics of Tibetan plateau. The combination of gravity data and GPS data show present properties of the Tibetan plateau such as crust thickening, Moho’s subsidence, and plateau uplift. GRACE data were used to estimate the distribution of ice/snow melting.