铁路水害信息管理系统

本文介绍了在VB中用OLE技术开发Mapinfo应用系统的基本方法，对铁路水害信息管理系统开发中碰到的问题和取得的经验进行了较详细的描述，对GIS系统数据的动态更新提出了独特的见解和解决方案，并就单机GIS系统平台开发广域网上的应用系统的经验进行了介绍。     

NOAA IMS雪冰产品在青藏高原积雪监测中的适用性分析

在系统评估青藏高原积雪观测典型气象站历史定位坐标精度基础上,利用站点雪深资料对NOAA IMS 4 km和1 km分辨率雪冰产品在青藏高原的精度和适用性进行了验证和评估,定量分析了IMS 4 km到1 km空间分辨率提高和气象站历史定位与GPS定位坐标之间的差异对青藏高原IMS积雪监测精度的影响。结果表明：青藏高原个别气象站历史坐标与当前GPS接收机定位之间存在较大的差异,如安多气象站经度偏小0.6°,纬度偏大0.08°。IMS 4 km雪冰产品在青藏高原的总精度介于76.4%~83.2%,平均为80.1%,积雪分类精度介于35.8%~60.7%,平均为47.2%,平均误判率为17.1%,平均漏判率为45.5%,总体上呈现地面观测的积雪日数越多、平均雪深越大,其总体监测精度越低,而积雪分类精度越高的特点。IMS分辨率从4 km到1 km总体精度平均提高了2.9%,积雪分类精度平均提高了0.9%,主要是由于个别站点的精度提升较大引起的,对高原多数台站积雪监测精度的改进和提升很小。除个别台站外,目前气象站历史坐标和GPS定位坐标之间的差异,对IMS 4 km积雪监测精度验证结果没有影响。然而,今后随着卫星遥感技术的发展,更高时空分辨率的遥感积雪产品将用于积雪监测和研究,精确的地面观测站坐标信息是对这些遥感数据开展精度验证与实际应用的前提。     

IMS体系抗震性能研究的Push-over方法

应用三维有限元实体单元计算模型，通过Push-over方法对云南傣族新民居IMS体系结构进行了地震破坏历程分析，并与模型振动台试验结果进行了比较。三维实体单元Push-over方法结果能较好的反映结构破坏表象，对结构抗震性能研究具有很好的辅助作用。     

GEDO IMS系统在有砟铁路精测中的应用

由于有砟铁路的精测工作效率与精度要求极高,常规人工测量手段精度低,轨道几何状态测量仪的测量速度慢,无法满足有砟铁路的捣固进度。本文介绍了GEDO IMS系统的工作原理,并重点对其应用于有砟铁路的精测效率和精度,以及联合大机捣固作业作全面测试。     

Slowness–azimuth corrections of teleseismic events for IMS primary arrays in China

The seismic arrays at Hailar (HILR) and at Lanzhou (LZDM) in China are both primary stations of the International Monitoring System for verifying compliance with the Comprehensive Nuclear Test Ban Treaty. These two stations became operational in 2002 and have since then provided continuous data. In this study, the so-called slowness–azimuth station corrections (SASC) were derived and used to improve the location accuracy of the two arrays. The SASC are found by comparing the back-azimuth and slownesses obtained from array processing to the theoretical values calculated from the reported event locations and the corresponding seismic velocity model. Events reported by the National Earthquake International Center in the time period 2002 to 2006 were used as reference events, and the IASP91 was used as the theoretical velocity model. Small correction vectors with random orientation were found for HILR. Larger correction vectors with systematic vector biases were found for LZDM. The LZDM correction vectors seem to point to the same direction in a large part of the slowness space and may be attributed to local structure. After introducing the SASC for HILR, the standard deviations of back-azimuth and slowness residuals drop from 7.1° to 4.6° and from 1.0 to 0.6 s/°, respectively. For LZDM, these values drop from 22.3° to 10.2° and from 2.9 to 1.1 s/°, respectively. The variations of back-azimuth and slowness residuals were reduced by 32% and 30.2%, respectively, for HILR after SASC and the reductions were 21% and 40.2% for LZDM. The improvements were 77% in back-azimuth and 67% in slowness location for HILR and were 79% and 81% for LZDM after SASC. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

MapGIS K9 IMS缓冲区分析二次开发的研究与应用

MapGIS K9 IMS平台底层依托超大型的地理信息系统平台MapGIS K9,且融入了互联网的各种技术,是一个功能全面、简便易用、特点突出、性能稳定的互联网地理信息系统开发平台。在该平台基础上,结合"青藏高原基础地质数据库管理系统"项目的功能需要,详细介绍了缓冲区分析二次开发的流程与经验,并且在该系统中得到了很好的应用。     

蚌埠荆山和涂山岩体的年代学、地球化学特征及其动力学意义

对蚌埠地区的荆山和涂山花岗岩进行了详细的年代学和岩石地球化学研究,分析结果表明:花岗岩的SiO2含量较高,介于71.22%～73.76%之间,富K2O、Na2O,贫TiO2、CaO、MgO,为弱过铝质岩石。K2O-Na2O图解上,所有数据点都落在"I"型花岗岩区域,结合呈右倾的微量元素标准化蛛网图,可知该区富集大离子亲石元素,同时具有明显的U、Pb、Ba、Sr正异常,Ti的负异常,暗示蚌埠岩体的形成背景可能为造山后的伸展环境。CamecaIMS1280SIMS锆石U-Pb年龄分析表明,主要有800Ma左右的新元古代年龄、三叠纪相关的220Ma和晚侏罗世的165Ma这三种主体年龄。根据上述地球化学资料,推断蚌埠岩体的母岩浆来源于火成岩的部分熔融,岩浆源区为与华北板块碰撞后继续向北伸展的部分扬子板块下地壳火成岩物质,其中,800Ma左右的新元古代年龄解释为扬子板块下地壳物质的继承锆石年龄,三叠纪的继承锆石理解为三叠纪时期华南、华北板块的碰撞导致,晚侏罗世的岩浆活动推测由于古太平洋板块北西向的斜向俯冲诱发扬子板块下地壳的物质部分熔融所致。     

Evaluating the potential of a blended passive microwave‐interactive multi‐sensor product for improved mapping of snow cover and estimations of snow water equivalent

The retrieval of Snow Water Equivalent (SWE) from remote sensing satellites continues to be a very challenging problem. In this paper, we evaluate the accuracy of a new SWE product derived from the blending of a passive microwave SWE product based on the Advanced Microwave Sounding Unit (AMSU) with a multi‐sensor snow cover extent product based on the Interactive Multi‐sensor Snow and Ice Mapping System (IMS). The microwave measurements have the ability to penetrate the snow pack, and thus, the retrieval of SWE is best accomplished using the AMSU. On the other hand, the IMS maps snow cover more reliably due to the use of multiple satellite and ground observations. The evolution of global snow cover from the blended, the AMSU and the IMS products was examined during the 2006 snow season. Despite the overall good inter‐product agreement, it was shown that the retrievals of snow cover extent in the blended product are improved when using IMS, with implications for improved microwave retrievals of SWE. In a separate investigation, the skill of the microwave SWE product was also examined for its ability to correctly estimate SWE globally and regionally. Qualitative evaluation of global SWE retrievals suggested dependence on land surface temperature: the lower the temperature, the higher the SWE retrieved. This temperature bias was attributed in part to temperature effects on those snow properties that impact microwave response. Therefore, algorithm modifications are needed with more dynamical adjustments to account for changing snow cover. Quantitative evaluation over Slovakia in central Europe, for a limited period in 2006, showed reasonably good performance for SWE less than 100 mm. Sensitivity to deeper snow decreased significantly. Copyright © 2007 John Wiley & Sons, Ltd.     

黑龙江省测绘控制成果管理信息系统的开发

黑龙江省测绘控制成果管理信息系统结合办公自动化的发展 ,利用计算机等现代化办公设备和GIS、WEB技术、图文数据库、计算机制图等技术 ,实现地理信息数据的输入输出、文档查询、空间检索查询和统计分析等功能 ,以便管理人员掌握控制成果的分布、标志的完好情况 ,促进测量标志的管理     

中国北部地区卫星积雪产品数据集检验

同其他卫星相比,NOAA卫星搭载的AVHRR积雪产品,具有长达10 a的长时间序列数据集,能够应用于长时间、较大区域范围的积雪覆盖变化分析。由于不同卫星使用的反演算法,波谱宽度和大气订正等不完全相同,故需对不同卫星积雪产品数据集进行一致性检验,将卫星积雪产品更好地应用于气候分析研究。本文采用一种新的评估方法,对空间分辨率为0.05^o×0.05^o的AVHRR积雪产品与IMS和MOD10A1积雪产品,分别在空间和时间变化上进行对比分析,对AVHRR积雪产品数据集进行检验,发现AVHRR与MODIS积雪产品具有较好的一致性。