浅谈厦门市大地基准的现代化

GPS定位技术的迅猛发展给测绘行业带来了革命性的变化,建于上世纪90年代初的厦门市首级控制网的升级换代摆上了议事日程。本文探讨厦门市三维、动态、高精度的现代大地基准建设及似大地水准面的精化。     

基于JSCORS的江苏省现代大地坐标框架的建设与维护

本文结合江苏省现代大地坐标框架的建设和JSCORS的运行维护,通过对江苏省原大地坐标框架的情况分析,介绍了江苏大地坐标框架的建设方案.结合区域稳定基点组的确定、框架维护和复测机制的建立、框架维护系统的建设等内容,提出江苏省大地坐标框架维护的解决方案.     

ITRF2005框架下GPS、VLBI和SLR地心坐标速度的精度检测

为了解ITRF2005框架下GPS、VLBI和SLR3种空间技术确定地心坐标速度的真正实现精度,利用这3种技术在并置站上的地心坐标速度进行了相互比较,经七参数转换后,可获得任意两种技术地心坐标速度不符值的中误差,以此作为外符精度,可以看出：VLBI、GPS和SLR地心坐标速度三分量的外符精度在1 mm/a之内,SLR与VLBI和GPS地心坐标速度的三分量的外符精度较差,而VLBI与GPS的外符精度较高。表明VLBI和GPS实现的地心坐标速度精度比SLR高。     

BJS54测绘成果到CGCS2000的转换方法应用

2000中国大地坐标系（CGCS2000）是我国新启用的地心坐标系。讨论了如何将1954北京坐标系（BJ54）下的平面坐标转换到2000中国大地坐标系（CGCS2000）的转换方法,并通过实例,对其误差进行了分析,验证了该方法的有效性和可行性。     

并置VLBI站的相对形变及其与全球解结果的比较

基于ITRF2000地球参考架的三维VLBI站速度矢量和NNR-NUVEL-1A地球板块运动模型，采用观测的VLBI基线长变化率作为约束，估计和讨论了全球6个并置VLBI站的局部或区域性地壳的相对形变，并与国际地球参考架ITRFs解和VLBI全球解glb2003以及VTRF2003的结果进行了比较．结果表明日本Kashima与Kashim34VLBI站之间，美国GREENBANK的NRAO20与NRAO85-3站之间可能存在每年约近4毫米的相对垂直形变；WESTFORD与HAYSTACK二站间每年近2毫米的垂直形变率差基本可得到肯定，KOKEE和KAUAI二站的垂直形变率约有每年1至3毫米的差．利用如下方法能较可靠地检测出并置VLBI站间的局部或区域性的地壳垂直形变，改进ITRF解的可能不足．     

上海天文台硬件相关处理机Mark5数据回放功能实现

m2hc程序是上海天文台硬件相关处理机的一个子系统，实现从Mark5系统自动回放甚长基线干涉测量（VLBI）原始观测数据给相关处理机的功能。目前已工作在绕月探测工程VLBI测轨任务中。该文详细介绍了m2hc的设计和实现以及应用结果。     

Alternatives to current GPS-RTK services and some implications for CORS infrastructure and operations

The justification for the establishment of CORS networks was initially in support of geodesy and other geoscientific applications at the global and regional level. However, increasingly GPS CORS network operators have sought ways of making their network infrastructure the basis of a profitable business. This has arisen with the introduction of real-time centimeter-level accuracy services, carrier phase-based modes of operation generally referred to as GPS-RTK (real-time kinematic). One approach is to try to recruit a core group of users who are prepared to pay for the GPS-RTK services. But this is only feasible if the number of users, and the fees that are charged, are sufficient to generate a reasonable return-on-investment (ROI). This ROI (or at the very least “cost-recovery”) is important for many network operators in order that they may provide for the maintenance and upgrade of the CORS infrastructure. On the other hand, there are those who advocate that there is no need to recoup CORS investment, that the installed GPS receivers should be seen as public infrastructure in a similar manner to roads, bridges, etc. This paper discusses some new business and operational models for GPS-RTK services. These include models for the establishment and operation of CORS infrastructure, service provision, business cases, and options for value-added services beyond the standard GPS-RTK service. One concept is based on a “client–server” model. Currently GPS-RTK service providers have no control over the quality of the results computed by users. This makes it difficult for them to justify charging for their services. What if instead of broadcasting RTK corrections and placing the onus of obtaining a final solution on the user and his equipment, the user’s coordinates are determined by the service provider? Putting the computational effort on the server side will justify more easily the charging of users for a value-added product: an accurate and quality assured coordinate in the local reference frame. This paper describes the client–server concept as well as possible business models that may underpin such a service model. These models include some derived from mobile telephony and service/hospitality businesses. Furthermore, with the projected proliferation of independent, competitive GPS-RTK services, the concept of a GPS data or service “broker” is worth exploring.     

Combination of long time-series of troposphere zenith delays observed by VLBI

Within the International Very Long Baseline Interferometry (VLBI) Service for Geodesy and Astrometry (IVS), long time-series of zenith wet and total troposphere delays have been combined at the level of parameter estimates. The data sets were submitted by eight IVS Analysis Centers (ACs) and cover January 1984 to December 2004. In this paper, the combination method is presented and the time-series submitted by the eight IVS ACs are compared with each other. The combined zenith delays are compared with time-series provided by the International Global Navigation Satellite System (GNSS) Service (IGS), and with zenith delays derived from the European Centre for Medium-Range Weather Forecasts (ECMWF). Before the combination, outliers are eliminated from the individual time-series using the robust BIBER (bounded influence by standardized residuals) estimator. For each station and AC, relative weight factors are obtained by variance component estimation. The mean bias of the IVS ACs’ time-series with respect to the IVS combined time-series is 0.89 mm and the mean root mean square is 7.67 mm. Small differences between stations and ACs can be found, which are due to the inhomogeneous analysis options, different parameterizations, and different treatment of missing in-situ pressure records. Compared to the IGS zenith total delays, the combined IVS series show small positive mean biases and different long-term trends. Zenith wet delays from the ECMWF are used to validate the IVS combined series. Inconsistencies, e.g., long-term inhomogeneity of the in-situ pressure data used for the determination of VLBI zenith delays, are identified.     

基于磁盘的新型VLBI终端系统--MK5A终端系统

阐述了国内外VLBI终端系统的发展历史；介绍了MK5A终端系统的概况、工作原理、工作模式和数据模式；展望了下一代VLBI终端系统MK5B和e-VLBI．