全球定位系统

2019 Vol. 44, No. 6

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Research on construction of multi-granularity spatio-temporal data model based on BDS

DENG Chao, WANG Lei, ZHANG Bingchuan, JIA Bao

2019, 44(6): 1-6. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.001

[Abstract](423) [PDF 698KB](91)

Abstract:
Focus on the difficulty of storing and analyzing in the process of organizing and managing spatio-temporal data of BDS,this paper selects spatio-temporal data of BDS as the research object and analyses its characteristics. Idea of space-time granulation is introduced to express it from three granularities: space-granularity, time granularity and space-time granularity. According to the method of Object-Oriented and Modified models of Ground State, the conceptual model of multi-granularity spatio-temporal data of BDS are given.A method to construct multi-granularity spatio-temporal data model based on BDS is proposesed. One example proves that this method can realize the organization and management of spatial-temporal data of BDS.

Impact of interference on the frequency domain and modulation domain of BDS signal

LIU Ruihua, LIANG Xinmeng

2019, 44(6): 7-13. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.002

[Abstract](454) [PDF 687KB](96)

Abstract:
BeiDou navigation Satellite system (BDS) is highly susceptible to interference from air or ground, which may cause signal quality changing and navigation performance redacing. Evaluating the impact of interference on BDS navigation signal quality can lay the foundation for interference monitoring technology. Different types of signals as interference are generated by vector signal source. and superimposed on BDS navigation signal received by high-gain antenna, the aliased data is processed offline, and the signal quality is analyzed from frequency domain and the modulation domain. Results show that interference may deteriorate BDS navigation signal, and the influence of different types of interference on the signal quality is different. Power spectrum and constellation processing results can be used to analyze the quality of BDS signal in interference environment.

Return link technology and application of BDS MEOSAR

GAO Ya, HE Zehua

2019, 44(6): 14-19. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.003

[Abstract](578) [PDF 527KB](115)

Abstract:
COSPAS-SARSAT provides free distress alert services to marine, aerospace and terrestrial users. According to the latest progress of COSPAS-SARSAT implementation plan for medium earth orbit satellite search and rescue,the return link service of other global navigation satellite systems will be introduced. The return link service will serve as an advanced function to realize alarm confirmation and two-way search and rescue information for distressed personnel, enhancing the survival confidence. Based on the characteristics of BeiDou Satellite Navigation System(BDS), the development and application of return link technology of BDS MEOSAR are discussed.

Accuracy analysis of BDS-3 pseudo-range single point positioning

ZHANG Liang, JIA Xiaolin, WANG Haichun, SUN Pengfei

2019, 44(6): 20-26. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.004

[Abstract](644) [PDF 731KB](128)

Abstract:
The basic system of BDS-3 has been completed. The global service was officially launched on December 27, 2018. The data of 13 international GNSS monitoring and assessment system (iGMAS) tracking stations were selected.These stations are evenly distributed globally. Pseudo-range single-point positioning studies in different positioning modes were carried out and its PDOP,number of visible satellite and pseudo-range single-point positioning result were analyzed. The results show that: BDS-3 single-frequency positioning accuracy from high to low as: B1C,B2a,B1I,B3I;BDS-3 dual-frequency positioning accuracy from high to low as: B1C／B2a,B1I／B3I. In the AsiaPacific region,the BDS-2／BDS-3 positioning accuracy improvement is more than 14％ compared with BDS-2.

Quality analysis of BDS／Galileo system satellite observation data

TAN Liqing, HUANG Liang, DU Zhongjin, YE Shirong, XIA Fengyu

2019, 44(6): 27-24. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.005

[Abstract](511) [PDF 785KB](129)

Abstract:
The quality of observation data will directly affect the global application process of satellite navigation system. In this paper, the quality of BDS／Galileo observation data has been analyzed and evaluated especially,observation data of 21 MGEX stations around the world from DOY66 to DOY76 of 2019 were used to assess data quality of BDS／Galileo system in terms of data availability, data completeness, multipath effect and so on. At the same time, data quality of BDS／Galileo system was compared with that of GPS. The results show that BDS／Galileo systems have the ability to provide global positioning service for user. The data quality of BDS is comparable to that of GPS and the data quality of Galileo system is slightly better than that of BDS／GPS.

Analysis on the improvement of BDS-3 satellite to BDS global positioning service

ZHANG Kunlun, GUO Jiang

2019, 44(6): 35-45. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.006

[Abstract](479) [PDF 1339KB](105)

Abstract:
With the continuous development and networking of the BeiDou Navigation Satellite System(BDS), BDS-3 satellites has begun to participate in the provision of global positioning service. In the case, the positioning performance of BDS has become the main focus of the both GNSS researchers and users. In order to evaluate the global positioning accuracy and availability of BDS, 44 IGS stations which can receive signals from both BDS-2 and BDS-3 satellites are selected in this study for the experiments, standard single point positioning based on B1I, B3I and B1I／B3I ionosphere-free observables are carried out respectively. Meanwhile, the broadcast ephemeris is also used to perform the global distribution of visible satellites and PDOP values of BDS. The results show that BDS-3 increases 2 ～ 4 visible satellites to BDS-2 only solutions with reducing PDOP values and positioning noises. As a result, BDS-3 expands the service range of BDS system from the Asia-Pacific region to all of the world. In addition, in the global scope, horizontal accuracy of 1.5m and vertical accuracy of 3 m can be achieved by using dual frequency ionosphere-free combination while 2.5 m and 4m can also be achieved in the case of single-frequency counterparts. We also implement a hand-held dynamic experiment and the results show that a positioning accuracy of 2 m and 4m for the horizontal and vertical components can be achieved under the dynamic conditions. In general, BDS can provide global positioning service with the accuracy of 2 m and 4 m for the horizontal and vertical directions using pseudorange standard single point positioning, which can meet the positioning needs of most users.

The research verification and application prospect of AIS-based BDS differential data broadcast system

SHEN Jianjun, PANG Bobo, LU Hongyang, YU Yuan, WANG Wenliang

2019, 44(6): 46-51. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.007

[Abstract](419) [PDF 678KB](86)

Abstract:
With respect to the situation that present Automatic Identification System (AIS) does not support the broadcast of BDS differential data, this paper studies differential message transmission and communication protocol of AIS, proposes a solution to broadcast BDS differential data through AIS. A test demonstration system is built to verify, verifies the feasibility of AIS-based BDS differential data broadcast system and result shows that the dynamic and static positioning accuracy of shipborne BeiDou AIS equipment can reach meter level. Propect of the application of AIS-based BDS differential data broadcast system in the maritime field is given in the end.

Analysis of the influence of BDS GEO satellite on GPS Precise Point Position of GPS

WANG Yuhao, MENG Ruizu, TIAN Xiancai

2019, 44(6): 52-57. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.008

[Abstract](580) [PDF 600KB](96)

Abstract:
In order to study the influence of BDS GEO satellite on the precise point positioning of MEO constellation, this paper analyzes the visible satellite number ,positioning accuracy and convergence time of combination of BDS GEO satellite and MEO satellite, observation are from MGEX station for 7 consecutive days .The experimental results show that better patial geometry can be obtained with the addition of GEO satellites to MEO satellites. The convergence time can be shortened with combination of GEO satellite and MEO satellite. Reliability of positioning can be improved with addition of GEO satellites,when positioning results of MEO satellite is poor.

Deformation monitoring of super high-rise buildings based on BDS PPP

WANG Yidong, WANG Mingxiao

2019, 44(6): 58-62. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.009

[Abstract](719) [PDF 506KB](81)

Abstract:
Deformation monitoring of Super high-rise buildings is an important part of the subsequent health assessment and safety assessment of super high-rise bulildings. At present, BDS Navigation Satellite System(BDS) has been widely used in building deformation monitoring. Based on BDS precise point positioning technology, this paper analyzes the deformation trend of three high-level monitoring points based on measurements of a super high-rise building in China. Results show that when the monitoring time reaches 1 h, the data starts to converge, the positioning accuracy can reach centimeter level, and the deformation trend of super high-rise buildings can be monitored, which provides a new technical means for future deformation monitoring of super high-rise buildings.

Research on USV path planning based on BDS

WANG Ru, WU Ziyue, LI Eryang

2019, 44(6): 63-69. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.010

[Abstract](316) [PDF 848KB](80)

Abstract:
This paper introduces an overall system design study of Unmanned Surface Vehicle (USV) based on MATLAB／BDS. In order to make the USV move more accurately in the autonomous path planning, the USV communicates with the host computer through the wireless communication module to combine the position data information sent by the BeiDou Navigation Satellite System (BDS) with the MATLAB planning path. Through planning and processing of the PC software, the precise motion trajectory is planned, The control information is sent to the USV, and the entire hull operation is controlled by the embedded control board STM32. The test is based on the real test data, the path planning data with MATLAB, and the path planning data with BDS. Comparing the data with the two-party integrated planning, the results show that the deviation of path planning based on MATLAB／BDS is significantly reduced, providing a feasible method for improving the accuracy of path planning.

Study on the application of BDS in bionic robot fish

CUI Xiufang, SHI Fuxiao, LI Peipei, CHEN Gang, WANG Hongyu

2019, 44(6): 70-74. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.011

[Abstract](470) [PDF 552KB](64)

Abstract:
As an important branch of the underwater robot industry, bionic robot fish plays an important role in exploring marine resources. This paper discusses the application of BeiDou Satellite Navigation System (BDS) in bionic robot fish and the basic positioning principle of bionic robot fish based on BDS. A multi-navigation combination technique is proposed. The modular design of bionic robotic fish mechanical structure based on BDS is used to explain the application of BDS in bionic machine fish posture calculation and path planning technology. The hardware system of the system's bionic robot fish is designed and based on BDS realized on the bionic robot fish designed by the laboratory.

Research on high precision interpolation algorithms for 3D coordinates of projection center of UAV at exposure time

KU Xinbo, DENG Yan, GAO Xiao, TANG Xinzhuang

2019, 44(6): 75-80. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.012

[Abstract](292) [PDF 550KB](69)

Abstract:
With the continuous improvement of airborne POS system, UAV technology has become an important way of high precision photogrammetry. Because of the limited sampling interval of GNSS receiver in POS system, it is necessary to interpolate the three-dimensional coordinates of projection center of the airborne camera at the exposure time. Four interpolation algorithms have been studied in this paper and real measurements have been used to compare the merits and demerits of different interpolation algorithms. The results show that the root mean square error of cubic spline interpolation algorithm is better than 5 cm when the sampling interval of raw GNSS observations is more than 1 Hz, which means that cubic spline interpolation algorithm is more suitable for high-precision interpolation of threedimensional coordinates of projection center.

Accuracy analysis of high-precision GNSS solution results for different precise ephemeris

SHI Yun, SHEN Jing Yu, WU Kangkang, ZHANG Lu, CAO Cuihua, TIAN Fan

2019, 44(6): 81-85. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.013

[Abstract](275) [PDF 586KB](84)

Abstract:
When performing highfrequency GNSS data calculations during earthquakes, different precise ephemeris will have different effects on the GNSS solution results. This paper analyzes the accuracy of the final precision ephemeris (IGF) and fast precision ephemeris (IGR) provided by the IGS data center in the high-frequency GNSS data calculation results of the earthquake, and theoretically discusses the different ephemeris to the high frequency of the earthquake. The influence of GNSS data accuracy is selected. The high-frequency GNSS data of the Baja earthquake in 2010 is analyzed by GAMIT／TARACK single epoch dynamic positioning method. The results show that the two ephemeris have little difference with the high-frequency GNSS data during the earthquake. The difference between the E and N directions is no more than 2.2 cm, the difference in the U direction is not more than 4 cm, and the root mean square deviation of the E, N, and U directions of the two ephemeris is less than 2. The results show that the difference between the precision of the precise ephemeris and the accuracy of the solution results in the high-frequency GNSS data is in the centimeter level. When the high-frequency GNSS data processing work is performed, different precision ephemeris can be used for the alternative solution.

Digital Line Graphic generation method based on aerial photography image of unmanned aerial vehicle

CHENG Libo, DUAN Ping, LI Jia, YAO Yongxiang, LI Chen, WANG Yunchuan

2019, 44(6): 86-91. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.014

[Abstract](318) [PDF 786KB](65)

Abstract:
Digital Line Graphic（DLG） is an important basic data source in national and urban construction. Traditional surveying and mapping data is used as the basis for DLG production. There is a large product error and the product quality is not guaranteed. DLG production is based on the research of aerial photography image of unmanned aerial vehicle. A method of quickly generating a DLG product is implemented. The feasibility of the method is proved by quality analysis and results test.

Analysis of tropospheric delay application in GAMIT short baseline calculation

ZHOU Jianying, CHEN Guoheng, ZHANG Huijun

2019, 44(6): 92-96. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.015

[Abstract](403) [PDF 640KB](96)

Abstract:
In this paper short baseline vector data of plain area, hilly area and island area from GNSS-C network in the coastal areas of south China are selected .Two different estimation strategy with and without tropospheric delay estimation are used to estimate the accuracy of data process in different geographic environment, The experimental results show that both the accuracy U component with tropospheric delay estimation and without tropospheric delay estimation are good in the three regions, but the accuracy of the latter is better than the former.In terms of baseline repeatability of the whole network, the accuracy of solution with tropospheric delay estimation and without the estimation of tropospheric delay is good, but the accuracy of the former is slightly better than the latter.

Performance comparison of multi-GNSS and dual-frequency PPP under different models

CHEN Jie, LIU Zhengcai, SU Ke, GUO Jiabing

2019, 44(6): 97-103. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.016

[Abstract](329) [PDF 714KB](102)

Abstract:
With the data of BDS, GPS, Galileo and GLONASS of ten stations in MGEX in January 2018, the ionosphere-free model and the un-differenced and uncombined model are used to analyze the positioning performance of PPP in single-system, dual-system and four-system. The positioning performance analyzed in this paper includes convergence time and positioning accuracy. The experimental results show that the positioning performance of the two PPP models is equivalent, and they are better than the single-frequency PPP. The convergence time in the E, N, and U directions is shortened at about 20 minutes, and the positioning accuracy is improved at about 1.6 cm. Multi-GNSS can increase number of satellites, and improve inter-satellite geometry and positioning performance of PPP. The GLONASS pseudorange IFB is estimated to use the pseudorange IFB model and the pseudorange IFB of each GLONASS satellite as the frequency quadratic polynomial model. The results show that the pseudorange IFB model of each GLONASS satellite is better than the pseudorange IFB for the frequency quadratic polynomial model. The two model of pseudorange IFB estimation have certain degree of improvement in PPP positioning performance compared to that ignoring the pseudorange IFB.

Design and application of TEQC data quality visualization and analysis software

LU Liguo, WU Bin, ZHAO Baogui, HU Weijian, XU Zhaoxiang, CHEN Rongqing

2019, 44(6): 104-109. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.017

[Abstract](684) [PDF 716KB](146)

Abstract:
The data quality of GNSS observations is the premise of ensuring high-precision positioning of GNSS. In order to improve data quality, data preprocessing of GNSS observations is required. Currently, TEQC software developed by UNAVCO Facility is widely used. However, TEQC is an imperative in DOS environment, there is no graphical user interface, and human-computer interaction is poor. The generated drawing result files need to be processed by visual software such as QCVIEW, but these saftwares can not conduct graphical analysis of the compact 3 format file generated by TEQC 2013.3.15 or higher version. Therefore, based on MATLAB GUI, a set of visual interface software (TEQCplot View) for compact 3 result files is developed. The experimental results show that the software has stable performance and can realize visualization analysis of different result files.

Research on GNSS dual antennas attitude determination and point calibration method

DAI Taogao, GONG Shuaishuai, WEI Ming, GUO Jiayu, XIA Zhengyuan

2019, 44(6): 110-115. doi: DOI:10.13442/j.gnss.1008-9268.2019.06.018

[Abstract](361) [PDF 591KB](100)

Abstract:
In this paper, a method of GNSS dual-antenna attitude determination and the existing pose inconsistency which caused by installation error or other factors have been analyzed.At the same time, a point dynamic calibration method based on GNSS dualantenna and an experimental verification method have been proposed to solve the dynamic calibration of target points for difficult measurements directly through GNSS, and analyzing the point accuracy of dynamic calibration. The flight test example shows that the method can achieve dynamic calibration accuracy better than 3 cm, and provides a new solution for dynamic calibration of carrier target points.

A cycle-slip detection and repair method for dynamic GNSS buoy on the ocean

KONG Chao, LEI Mengfei, ZHOU Junhua

2019, 44(6) doi: DOI:10.13442/j.gnss.1008-9268.2019.06.019

[Abstract](302) [PDF 796KB](88)

Abstract:
The data quality of GNSS buoy working in the sea is ususlly influenced by the dynamic sea surface, The measurement noise and multipath error are significantly increased, and cycle occurs more frequently, especially when the satellite is at low elevation. The conventional GNSS cycle slip detection method always neglect the effects of multipath error and observation noises and take no account of error caused by satellite elevation when detecting and repair the the GNSS data. Thus, the conventional GNSS cycle slip detection method is not applicable for GNSS buoy. In this paper, the author proposed a combined cycle-slip detection method based on TECR and an improved M-W measurement that taking into account the satellite elevation angle.The experiment results indicate that the method can significantly reduce error caused by satellite elevation and multipath and can accurately detect and repair all the simulated cycle slips. Thus,It’s an effective method for data preprocessing applied to marine GNSS buoys.