共查询到17条相似文献,搜索用时 547 毫秒
1.
传统的网络RTK中数据中心和流动站的数据传输一般采用RTCM SC‐104格式,而数据中心和参考站之间一般采用接收机厂商自定义的实时数据格式。为了满足新一代网络RTK多系统,多信息类型的实时数据传输,RTCM 委员会专门推出了最新的 RTCM 10403.2数据格式。本文详细介绍了最新版的 RTCM3.2电文特点,新增的MSM 电文,编、解码方式以及对BDS系统的支持。给出了M SM电文组的解码流程,通过对实时数据进行解码实验,证明了算法的正确性和可靠性。 相似文献
2.
3.
4.
5.
DGNSS差分电文解码算法研究 总被引:1,自引:1,他引:0
DGNSS是提高GNSS系统定位精度的有效途径。本文在分析DGNSS电文格式的基础上,提出针对本格式电文的完整解码算法,并采用C++编程语言进行实现;通过对实际数据的解码测试,验证了解码算法的正确性。 相似文献
6.
7.
在全球卫星导航系统的研究和测量工作中,需要对GNSS测量数据进行分析和计算,解码GPS接收机原始数据是实时获得以上数据的主要方法。原始电文的二进制格式由各接收机板卡厂商及板卡集成厂家定义本文介绍了常用原始GNSS数据格式内容并对其进行解码转化为标准的RINEX格式文件。该解码软件可以对多种数据格式的电文进行分析解码得到相应的多系统观测文件和星历文件,包括BDS三频数据,并可以根据需要选择生成的RINEX文件中系统类型。使用TEQC软件对数据质量进行进一步的质量分析,为后续的数据分析和处理提供了可靠的保障。 相似文献
8.
9.
10.
11.
12.
差分GPS数据通讯格式RTCM3.0及应用发展 总被引:1,自引:0,他引:1
介绍了目前使用的DGPS数据通讯格式及其主要的传播媒介,以及数据通讯格式RTCMV3.0的新增电文类型及其内容。并通过与其它数据通讯格式的比较,论述RTCMV3.0的相关应用情况。 相似文献
13.
14.
H.263视频编解码器在TM1300上的实现与优化 总被引:6,自引:0,他引:6
介绍了ITU-T.H263编解码算法原理和TM1300定点DSP芯片。针对该芯片的硬件结构特点,设计了一套设计TM1300之上的实时视频信号采集、视频编码、视频输出系统的可行方案。讨论了H.263实时视频编码在TM1300上定点实现的关键技术和难点问题,详细论述了H.263编解码算法的代码优化技术。测试表明,本文的实现及优化技术是可行的。 相似文献
15.
16.
Currently, the GNSS computing modes are of two classes: network-based data processing and user receiver-based processing. A GNSS reference receiver station essentially contributes raw measurement data in either the RINEX file format or as real-time data streams in the RTCM format. Very little computation is carried out by the reference station. The existing network-based processing modes, regardless of whether they are executed in real-time or post-processed modes, are centralised or sequential. This paper describes a distributed GNSS computing framework that incorporates three GNSS modes: reference station-based, user receiver-based and network-based data processing. Raw data streams from each GNSS reference receiver station are processed in a distributed manner, i.e., either at the station itself or at a hosting data server/processor, to generate station-based solutions, or reference receiver-specific parameters. These may include precise receiver clock, zenith tropospheric delay, differential code biases, ambiguity parameters, ionospheric delays, as well as line-of-sight information such as azimuth and elevation angles. Covariance information for estimated parameters may also be optionally provided. In such a mode the nearby precise point positioning (PPP) or real-time kinematic (RTK) users can directly use the corrections from all or some of the stations for real-time precise positioning via a data server. At the user receiver, PPP and RTK techniques are unified under the same observation models, and the distinction is how the user receiver software deals with corrections from the reference station solutions and the ambiguity estimation in the observation equations. Numerical tests demonstrate good convergence behaviour for differential code bias and ambiguity estimates derived individually with single reference stations. With station-based solutions from three reference stations within distances of 22–103 km the user receiver positioning results, with various schemes, show an accuracy improvement of the proposed station-augmented PPP and ambiguity-fixed PPP solutions with respect to the standard float PPP solutions without station augmentation and ambiguity resolutions. Overall, the proposed reference station-based GNSS computing mode can support PPP and RTK positioning services as a simpler alternative to the existing network-based RTK or regionally augmented PPP systems. 相似文献
17.
RINEX格式是GPS数据一种常用的标准数据格式,通用性强,利于多种型号的接收机联合作业,绝大多数商用软件都能处理。本文从生产实践出发,详细介绍了RINEX格式数据信息及常用的几种GPS接收机数据传输与转换方式,以及解算过程中出错数据元的检查和修正,对指导生产实践有一定的借鉴意义。 相似文献