| NO. |
NAME |
AFFILIATION |
COUNTRY |
ABSTRACT |
| 1 |
Naser El-Sheimy |
University of Calgary |
Canada |
Inertial Navigation - State of the Art and Future Trends in Mapping and Navigation Applications |
| 2 |
Yuanxi Yang |
China National Administration of GNSS and Applications |
China |
New directions of BDS and BDS+ |
| 3 |
James Garrison |
Purdue University |
USA |
From GNSS-R to GNSS+R: Remote Sensing with Signals of Opportunity |
| 4 |
Guifei Jing |
National Remote Sensing Center of China, MOST |
China |
Analysis of utility of location signals for the Internet of Things (IoT) |
| 5 |
Lars Prange |
AIUB, University of Bern |
Switzerland |
Orbit modelling in CODE's MGEX solution |
| 6 |
Toshitaka Tsuda |
Kyoto University |
Japan |
Characteristics of Atmospheric Waves in the Middle Atmosphere Revealed Using GNSS RO Temperature Profiles |
| 7 |
Jingchun Li |
Harbin Institute of Technology |
China |
Innovation Covariance-Based Adaptive Kalman Filter for SINS/GNSS Integration System |
| 8 |
Xiaoping Wu |
Jet Propulsion Laboratory, NASA |
USA |
Global Surface Mass Variations from Inversion of GNSS+ECCO and From GRACE |
| 9 |
Nevin Betul Avsar |
Bulent Ecevit University |
Turkey |
Vertical land motion along the Black Sea coast from Tide Gauge, Satellite Altimetry and GPS |
| 10 |
Xiaodong Qian |
Shanghai Astronomical Observatory, CAS |
China |
Snow depth from GLONASS-Reflectometry: A case study from SNR and phase-based multipath data |
| 11 |
Harald Schuh |
GFZ German Research Centre for Geosciences |
Germany |
Implementation of a Global Navigation Satellite System (GNSS) Augmentation to Tsunami Early Warning Systems |
| 12 |
Xinjian Shan |
Institute of Geology, CEA |
China |
The 3-dimensional surface deformation, coseismic fault slip and after-slip of the 2010 mw6.9 Yushu earthquake |
| 13 |
Volkan Akgul |
Bulent Ecevit University |
Turkey |
High-order ionopsheric effects on GPS-estimated tropospheric delay gradients |
| 14 |
Jonathan Jones |
UK Met Office |
UK |
COST Action ES1206: Advanced GNSS Tropospheric Products for Monitoring Severe Weather Events and Climate (GNSS4SWEC) |
| 15 |
Yang Liu |
Beihang University |
China |
Analysis of Strong Multipath Effect on ionospheric Scintillation Monitor |
| 16 |
Zhe Yang |
Hong Kong Polytechnic University |
Hong Kong |
A Preliminary Study on Ionospheric Scintillations by Combining COSMIC Radio Occultation and Ground-based GPS Observations over Hong Kong Region |
| 17 |
Xuerui Wu |
Shanghai Astronomical Observatory, CAS |
China |
A fully polarization GNSS+R Delay Doppler Map and forward GNSS-R/GPS-IR physical simulators for land geophysical parameters |
| 18 |
Anna Polyakova |
Institute of Solar-Terrestrial Physics, RAS |
Russia |
East-Siberian regional GNSS TEC maps: the first steps |
| 19 |
Attaullah Khan |
Shanghai Astronomical Observatory, CAS |
China |
Gravity waves activities in Tibet from COSMIC GPS Radio Occultation observations |
| 20 |
Taoufiq Jouan |
Institute of Agronomy and Veterinary Hassan II |
Morocco |
Modelling of the ionospheric error for the improvement of GNSS positioning |
| 21 |
Du Li |
Shanghai University & SHAO |
China |
3-D seismo-ionospheric disturbances following the 2011 Tohoku earthquake from denser GNSS array observations |
| 22 |
Yury Yasyukevich |
Institute of Solar-Terrestrial Physics, RAS |
Russia |
F-spread and ionospheric scintillations during the 2015 June 22 magnetic storm at mid-latitude |
| 23 |
Shuanggen Jin |
Shanghai Astronomical Observatory, CAS |
China |
GNSS Remote Sensing: New observations, results and findings |
| 24 |
Y. Tony Song |
Jet Propulsion Laboratory, NASA |
USA |
Results from JPL's GNSS-Aided Tsunami Early Detection (GATED) System |
| 25 |
Xin Zhao |
Shanghai University & SHAO |
China |
Assessment of high-resolution regional ionospheric model from denser GNSS observations in China |
| 26 |
Xiangxiang Yan |
China University of Petroleum |
China |
Statistical and long time series analysis of ionospheric TEC disturbance over seismically region in China |
| 27 |
Yan Xiang |
University of Calgary |
Canada |
Line-of-sight ionospheric observables estimation from UofC model |
| 28 |
Xingyu Chen |
Information Engineering University |
China |
Station selection strategy of FCBs products used in PPP ambiguity resolution |
| 29 |
Lingyong Huang |
China Aerospace Surveying and Mapping Satellite Center |
China |
Fast stochastic model construction of triple-frequency pseudo-range observations |
| 30 |
Peter Steigenberger |
German Space Center (DLR) |
Germany |
Orbit Modeling of the Galileo Satellites |
| 31 |
Junhai Li |
Shanghai Astronomical Observatory, CAS |
China |
Estimation of ionospheric electron density from GPS radio occultation with high-order ionospheric corrections |
| 32 |
Gottfried Kirchengast |
University of Graz |
Austria |
GNSS radio occultation for climate: new results and advances for monitoring variability, trends, and extreme events |
| 33 |
Chaoqun Gao |
Beijing University of Aeronautics & Astronautics |
China |
The analysis model of detection range about the Beidou/GPS passive radar based on the view angle |
| 34 |
Xianyi Wang |
National Space Science Center, CAS |
China |
In-orbit performance of GNOS on-board FY3C and the enhancements for FY3D satellite |
| 35 |
Dong-Hwan Hwang |
Chungnam National University |
South Korea |
Low-cost and High Performance Ultra-tightly Coupled GPS/INS Integrated Navigation Algorithm |
| 36 |
Tengyu Zhang |
Shanghai Astronomical Observatory, CAS |
China |
Terrestrial water storage variations in the Great Lakes Water Basin from continuous GPS observations |
| 37 |
Lingyong Huang |
China Aerospace Surveying and Mapping Satellite Center |
China |
Triple-frequency cycle slip processing method under high ionospheric activity |
| 38 |
Vladislav Demyanov |
Irkutsk State Transport University |
Russia |
Detecting the small-scale irregularities based on GNSS data |
| 39 |
Gao Fan |
Shandong University |
China |
Constellation design and coverage analysis for Chinese GNSS-R mission |
| 40 |
Gokhan Gurbuz |
Bulent Ecevit University |
Turkey |
Long-term variations of Precipitable Water Vapor from six-year GPS and Radiosonde observations in Turkey |
| 41 |
Mi Liao |
National Satellite Meteorological Center |
China |
The Status of GNOS/FY-3C now and future |
| 42 |
Kosuke Heki |
Hokkaido University |
Japan |
Ionospheric Anomalies Immediately before Large Earthquakes: Observation by GNSS-TEC |
| 43 |
Li Wang |
Chang'an University |
China |
The Obtaining and Precision analysis of BDS daily DCB Products |
| 44 |
Rui Fernandes |
University of Beira Interior |
Portugal |
Analysis of Geophysical Processes in Northeast Asia using GNSS Observations |
| 45 |
Guofeng Ji |
Changan'An University |
China |
Precise orbit determination of BeiDou satellites using ground_based and space_borne data |
| 46 |
Vladislav Demyanov |
Irkutsk State Transport University |
Russia |
GNSS positioning availability control under irregular external impact |
| 47 |
Jingshi Tang |
Nanjing University |
China |
Long-term evolution of the inclined geosynchronous orbit in Beidou Navigation Satellite System |
| 48 |
Scot Rafkin |
Southwest Research Institute |
USA |
The Meteorology of Gale Crater, Mars as Determined from Observations and Numerical Modeling |
| 49 |
Bahruz Ahadov |
Shanghai Astronomical Observatory, CAS |
China |
Crustal deformation and tectonic activities in Eastern Mediterranean Sea from GPS observations |
| 50 |
Fang Zou |
Shanghai Astronomical Observatory, CAS |
China |
Vertical displacement due to glacial ice mass loss in Greenland observed by GRACE, ICESat and GPS |
| 51 |
Naoki Ito |
Kyoto University |
Japan |
Observation of Precipitable Water Vapor (PWV) with Hyperdense GNSS Receiver Network |
| 52 |
Weimin Zheng |
Shanghai Astronomical Observatory, CAS |
China |
Interferometry Imaging Technique for Accurate Deep-space Probe Positioning |
| 53 |
Guochang Xu |
Shandong University-Weihai |
China |
Several key questions in GNSS research |
| 54 |
Zhongping Zhang |
Shanghai Astronomical Observatory, CAS |
China |
Recent performances and applications of SLR in BeiDou satellites measurements |
| 55 |
Rui Xu |
Sichuan Earthquake Bureau |
China |
Present-day Kinematics of the Eastern Tibetan Plateau and SiChuan Basin: Implications for Lower Crustal Rheology |
| 56 |
Xuhui Shen |
Institute of Earth Crustal Dynamics, CEA |
China |
Progress of the China Geo-Electromagnetism Monitoring Satellite Mission |
| 57 |
Rui Wang |
Polar Research Institute of China |
China |
A mechanism for variations of tropopause and tropopause inversion layer in the Arctic region during stratospheric sudden warming in 2009 |
| 58 |
Elhadi Khalifa |
Southwest Jiaotong University |
China |
Determining the Orthometric Heights Using GPS and Leveling Techniques for ground control points in Karrary(Sudan) |
| 59 |
Zhiguo Deng |
GFZ German Research Centre for Geosciences |
Germany |
Reprocessing of GFZ Multi-GNSS product GBM |
| 60 |
Yanju Chai |
Institute of Geodesy and Geophysics, CAS |
China |
Bridging GPS Outages Using Doppler Velocity in PPP/INS System |
| 61 |
Gokhan Gurbuz |
Bulent Ecevit University |
Turkey |
Correlation analysis of Particle Pollution PM10 and Zenith Troospheric Delay (ZTD) from GPS measurements in Zonguldak, Turkey |
| 62 |
Yang Chong |
Information Engineering University |
China |
Research on the matching algorithm using geomagnetic anomaly based on the RAE filtering |
| 63 |
Rui Jin |
Shanghai Astronomical Observatory, CAS |
China |
Ionospheric behaviors following the geomagnetic storm in June 2015 from IGS GIM TEC data |
| 64 |
Peng Fang |
University of California San Diego |
USA |
Modelling postseismic deformation of GNSS global tracking network stations |
| 65 |
Andres Calabia |
Shanghai Astronomical Observatory, CAS |
China |
Variations of thermospheric air mass density derived from GRACE accelerations and GPS POD |
| 66 |
Hang Guo |
Nanchang University |
China |
A Tightly Coupled Algorithm of GNSS PPP/IMU Based on Phase Smoothing Pseudorange |
| 67 |
Kefei Zhang |
RMIT University |
Australia |
Recent Australian Quest for GNSS Atmospheric Sounding |
| 68 |
Junyu Li |
Guilin University of Technology |
China |
An interpolation method for the weighted mean temperature based on higher Taylor series expansion |
| 69 |
Qiang Wen |
Wuhan University |
China |
Characteristics and effects of GLONASS pseudorange inter-frequency biases |
| 70 |
Yahya Djamour |
National Cartographic Center |
Iran |
Feasibility of the Flood Forecasting Using GPS Signals Case study: 2012 Arasbaran flood, Iran |
| 71 |
Kan Wang |
ETH Zurich |
Switzerland |
Modelling of low-cost atomic clocks and its impact on code-based kinematic positioning |
| 72 |
Qianqian Zhang |
Information Engineering University |
China |
A new algorithm of ARAIM for multiple faults monitoring and vertical guidance |
| 73 |
Yan Jia |
Politecnico di Torino |
Italy |
Soil moisture and vegetation sensing using GNSS-R polarimetric measurement |
| 74 |
Qinghui Liu |
Shanghai Astronomical Observatory, CAS |
China |
Same-beam VLBI for orbit determination of deep-space spacecrafts |
| 75 |
Jiandong Liu |
Wuhan University |
China |
Cruise orbit determination of Mars from optical celestial techniques and X-ray pulsars |
| 76 |
Octavian Andrei |
Chulalongkorn University |
Thailand |
BeiDou baseline processing: independency and complementarity |
| 77 |
Liang Tian |
Xi'An Institute of Surveying and Mapping |
China |
Studying on global tectonic deformation based on space technique |
| 78 |
Shijie Fan |
China University of Petroleum |
China |
Ship-borne real-time GPS precise point positioning using IGS RTS products: A case study in the Chinese Bohai Gulf |
| 79 |
Marco Aloisi |
Istituto Nazionale di Geofisica e Vulcanologia |
Italy |
Sudden deflation and following faulting process of the December 2015 Etna volcano inferred from continuous GPS observations |
| 80 |
Rui Zhang |
National Earthquake Infrastructure Service |
China |
Performance and Seismic Phase Recognition of Real-time High-rate GNSS Seismometer: Shake table tests and cases study |
| 81 |
Tugba Korkmaz |
Bulent Ecevit University |
Turkey |
Long-time variation characteristics of multipath from GPS and GLONASS observations |
| 82 |
Yinhua Liu |
National Time Service Center, CAS |
China |
Study on the performance improving method of Loran/GNSS integrated navigation |
| 83 |
Zhiyong Huang |
China Aerospace Surveying and Mapping Center |
China |
A-GNSS coarse-time navigation algorithm |
| 84 |
Pawel Wielgosz |
University of Warmia and Mazury in Olsztyn |
Poland |
Assessment of GPS + Galileo and multi-frequency Galileo single-epoch precise RTK positioning |
| 85 |
Xinhua Ma |
Harbin Engineering University |
China |
SINS/GPS/CNS Integrated Navigation Information Fusion Technology based on Federated Filter |
| 86 |
Qinghua Zhang |
PLA University of Science and Technology |
China |
GNSS Coordinate Reference Interoperability Between GPS And BDS: An Initial Assessment |
| 87 |
Dessi Marlia |
Beihang Univ. & Nat. Ins. of Aeronautics & Space |
Indonesia |
Mapping of Ionospheric Scintillation at Low Latitudes: Over Indonesia |
| 88 |
Yueyang Ben |
Harbin Engineering University |
China |
In-field calibration for a strapdown inertial navigation by GNSS |
| 89 |
Wasiu Akande Ahmed |
Beihang University |
China |
Seasonal Ionospheric Scintillation and TEC Analysis during Increasing Solar Activity |
| 90 |
Yury Yasyukevich |
Institute of Solar-Terrestrial Physics, RAS |
Russia |
GPS/GLONASS slips at high latitude under different Hello-Heophysical conditions |
| 91 |
Junming Xia |
National Space Science Center, CAS |
China |
Study on utilizing right hand polarized GNSS reflected signals to retrieve sea surface wind |
| 92 |
Longxia Xu |
National Time service Center, CAS |
China |
A calibration method of delay difference for the TWSTFT ground station equipments |
| 93 |
Hammed Ejalonibu |
University of Lagos |
Nigeria |
Comparison of GPS and EGNOS Amplitude Scintillations at Equatorial Stations |
| 94 |
Shulun Liu |
Wuhan University |
China |
Using COSMIC radio occultation data to analyze the time-space distribution characteristics of atmospheric parameters on different underlying surfaces |
| 95 |
Xiaohong Sui |
DFH Satellite Co., Ltd. |
China |
Sea Surface Height Measuring with Radar Echo-tracking based InSAR Altimetry |
| 96 |
Weihua Bai |
National Space Science Center, CAS |
China |
FY3C GNOS product analysis during March 2015 geomagnetic storm event |
| 97 |
William Schreiner |
University Corporation for Atmospheric Research |
USA |
COSMIC-2/FORMOSAT-7 Overview: Next Generation Radio Occultation Constellation for Weather, Climate and Space Weather |
| 98 |
Yong Fu |
Beihang University |
China |
Weak BeiDou Signal Acquisition in the Presence of Sign Transition |
| 99 |
Xiude Chen |
Chang'An University |
China |
An improved broadcast ionospheric model's algorithm revised by the time sequence of the combined Muti-model |
| 100 |
Liang Han |
Shandong University-Weihai |
China |
Design and Implementation of Intelligent System for Car Navigation Recommendation System Based on Hadoop |
| 101 |
Abubakr Hassan |
Southwest Jiaotong University |
China |
Evaluation of three dimensional transformation parameters between WGS and ADINDAN datums in Merowe Dam area (SUDAN) |
| 102 |
Ershen Wang |
Shenyang Aerospace University |
China |
Particle Filter Approach Based on Chaos Particle Swarm Optimization for GNSS Receiver Autonomous Integrity Monitoring |
| 103 |
Ya Zhang |
Harbin Institute of Technology |
China |
Improved FAST Feature Extraction Algorithm for Vision Aided Integrated Navigation Systems |
| 104 |
Xingli Gan |
Harbin Engineering University |
China |
PDR indoor positioning technology based on support vector machine (SVM) |
| 105 |
Bin Liu |
Central South University |
China |
Detecting the seasonal hydrologic deformation from vertical GPS time series using independent component analysis |
| 106 |
Huan Wang |
National Time service Center, CAS |
China |
Impact of the GNSS Time Offsets on Four-constellation GNSS Positioning Performance |
| 107 |
Brett Carter |
RMIT University |
Australia |
Using coupled ionosphere-thermosphere modeling to understand the occurrence of low-latitude scintillation events on Global Navigation Satellite Systems |
| 108 |
Tianhe Xu |
Shandong University, Weihai |
China |
Station Solutions from SLR data of GRACE satellites |
| 109 |
Qiang Shi |
Central South University |
China |
The test and analysis on the multipath effects of BDS observation |
| 110 |
Tian Zeng |
Information Engineering University |
China |
Fengyun-3C GNOS satellite-based observations quality analysis |
| 111 |
Ersheng Wang |
Shenyang Aerospace University |
China |
Evaluation Algorithm Based on Markov process for GNSS Constellation Availability |
| 112 |
Kangkang Chen |
Chang'an University |
China |
Combining the MGEX clock products for quad-constellation |
| 113 |
Jacek Paziewski |
University of Warmia and Mazury |
Poland |
Benefits of combined BDS and GPS precise relative positioning |
| 114 |
Xiaolei Wang |
Chang'An University |
China |
Soil Moisture Variations Estimated from GPS-Reflectometry Using FFT and LSM |
| 115 |
Longping Zhang |
Shandong University of Science & Technology |
China |
Multi-GNSS and Multi- frequency Noise Analysis of Observation Data |
| 211 |
Hao An |
PLA University of Science and Technology |
China |
Feasibility research on the detection of heavy rain using polarimetric GNSS signals |
| 117 |
Zhaohan Zhu |
Wuhan University |
China |
Quantitative Geophysical Sources on Common Mode Error of CMONOC GPS Coordinate Time Series |
| 118 |
Ye Ren |
National Time Service Center, CAS |
China |
System Time Offset Assisting User Integrity Monitoring |
| 119 |
Ning Liu |
Central South University |
China |
Research on fusing InSAR and GNSS deformation data based on FRS |
| 120 |
Qian Li |
Harbin Institute of Technology |
China |
A Novel MEMS-Based Multi-Sensor System for Land Vehicle Navigation |
| 121 |
Jinhui Huang |
National University of Defence Technology |
China |
Optimization design of ISL assignment parameters in GNSS based on genetic algorithm |
| 122 |
Ke Zhang |
National University of Defense Technology |
China |
NLOS Detection based on Single Orthogonal Dual-polarized GNSS Antenna |
| 123 |
A. A. Mylnikova |
Institute of Solar-Terrestrial Physics, RAS |
Russia |
Validation of the technique for estimation of absolute total electron content |
| 124 |
Liying Deng |
Harbin Engineering University |
China |
Huber-based filtering for SINS/improved monocular visual odometry integrated navigation system |
| 125 |
Kai Guo |
Beihang University |
China |
Improving the single point positioning model in the presence of ionospheric scintillation |
| 126 |
Li Fan |
Tsinghua University |
China |
Ground track maintenance for BeiDou IGSO satellites subject to tesseral resonances and the luni-solar perturbations |
| 127 |
Congliang Liu |
National Space Science Center, CAS |
China |
Quality Assessment of FY3C GNOS RO data for upper troposphere and lower stratosphere climate monitoring |
| 128 |
Le Wang |
Chang'An University |
China |
A new technique to calculating BDS satellites orbits combined with space-based and ground monitoring stations data |
| 129 |
Longxia Xu |
National Time service Center, CAS |
China |
Research on the application of system time offset in combined navigation system |
| 130 |
Ming Yang |
National Cheng Kung University |
Taiwan |
Improving the performance of BeiDou phase ambiguity resolution by excluding the use of pseudoranges |
| 131 |
Jingyu Zhang |
National University of Defence Technology |
China |
Integer aperture estimation with the existence of biases |
| 132 |
Kaifei He |
China University of Petroleum |
China |
A study on the sign correction of the raw Doppler observation for GNSS velocity determination |
| 133 |
Xinhui Zhu |
Zhengzhou Institute of Surveying and Mapping |
China |
Analysis ofInteroperability of GNSS Geodetic Reference Frames |
| 134 |
Erhu Wei |
Wuhan University |
China |
Precision Orbit Determination of Lunar Probe with VLBI, USB and Space VLBI |
| 135 |
Hua Chang |
Wuhan University |
China |
An exploration of the characteristic of the GLONASS satellite carrier-phase IFBs |
| 136 |
Fengyang Chi |
Harbin Institute of Technology |
China |
Multi-sensor Information Fusion Technology Based on Mixed Federal Filter |
| 137 |
Congliang Liu |
National Space Science Center, CAS |
China |
A review of LEO-LEO occultation techniques using microwave and infrared-laser signals |
| 138 |
Wei Xiong |
Institute of Seismology, CEA |
China |
Coseismic, postseismic and interseismic Coulomb stress evolution along Himalayan Main Frontal Thrust since 1803 |
| 139 |
Min Wang |
Zhengzhou Institute of Surveying and Mapping |
China |
Performance analysis of BDS/GPS precise point positioning with undifferenced ambiguity resolution |
| 140 |
Ming Shi |
Beijing Aerospace Control Center |
China |
Multimission raw data center for APOD |
| 141 |
Yu Zhou |
Institute of Seismology, CEA |
China |
Rupture geometry and slip distribution of the April 15th Mw 7.1 Kumamoto, Japan earthquake inferred from co-seismic GPS measurements by a mixed linear-nonlinear inversion approach |
| 142 |
Shuyang Cheng |
University of New South Wales |
Australia |
Enhancing GPS Precise Point Positioning with different atmosphere delay correction models and ambiguity resolution |
| 143 |
Jian Zhao |
China University of Petroleum |
China |
Sea Level Nonlinear Change and Prediction in the Yangtze River Estuary (YRE) Coastal Ocean using Satellite Altimetry Data |
| 144 |
Wenfeng Nie |
Shandong University-Weihai |
China |
Evaluation of the algebraic solution of the state transition matrix in the case of real-time onboard orbit determination |
| 145 |
Dandan Li |
National Time service Center, CAS |
China |
Research on a New Method of Generating UTC Parameters for BD Satellite Navigation System |
| 146 |
Weimin Zhen |
China Research Institute of Radiowave Propagation |
China |
An Improved ionospheric correction algorithm for Global Navigation Satellite System |
| 147 |
Xiao Yu |
China Research Institute of Radiowave Propagation |
China |
A study of ionospheric scintillation in the low latitude of China derived from GPS radio occultation |
| 148 |
Kai Liu |
Central South University |
China |
Measuring sea level based on BDS signal-to-noise ratio |
| 149 |
Qiang Wang |
Beihang University |
China |
Impact of the GNSS-R Interferometric complex field on coherence time from ocean remote sensing |
| 150 |
Abelardo Bethencourt |
Universidad Polit¨¦cnica de Madrid |
Spain |
Spherical Cap Harmonic Analysis del TEC in a Low - Latitude region |
| 151 |
Bo Li |
National Time Service Center, CAS |
China |
Research on GPS and Baro-Altimeter Integrated Navigation and Positioning Arithmetic |
| 152 |
Weijun Hou |
Xi'An High Tech Research Institute |
China |
A Joint Method For Solving Combined DCB Of GNSS Data Under Single Receiver Case |
| 153 |
Jingya Chen |
National Time Service Center, CAS |
China |
Analysis of the receiver delay variation and study of the relative calibration method |
| 154 |
Lijun Liu |
National Space Science Center, CAS |
China |
Simulation study on evaporation duct's effect on Delay Doppler Mappings of GNSS sea surface reflected signals |
| 155 |
Zongpeng Pan |
Information Engineering University |
China |
Integrating multi-GNSS to accelerate convergence and initialization time of precise point positioning |
| 156 |
Jinhui Huang |
National University of Defence Technology |
China |
Virtual topology division optimization in GNSS satellite networks |
| 157 |
Jiachun An |
Wuhan University |
China |
Snow depth estimation in polar region from GNSS reflected signals |
| 158 |
Lan Du |
Zhengzhou Ins. of Surveying & Mapping/GFZ |
China |
A revised CNAV broadcast ephemeris for BDS |
| 159 |
Lei Chen |
National University of Defense Technology |
China |
High Orbital Spacecraft Vector Tracking Loop Algorithm Based on GNSS assisted with Inter-satellite Link |
| 160 |
Zhen Zeng |
University Corporation for Atmospheric Research |
USA |
Vertical Structure of the Lower Arctic Troposphere Revealed from the Radio Occultation Observations |
| 161 |
Jinhui Huang |
National University of Defense Technology |
China |
Communication performance analysis of satellite in GNSS using queuing theory |
| 162 |
Yupu Wang |
Zhengzhou Institute of Surveying & Mapping |
China |
Modelling and prediction performance analysis for BeiDou satellite clock bias |
| 163 |
Jyh-Ching Juang |
National Cheng Kung University |
Taiwan |
Development and Test of a Receiver for GNSS Reflectometry |
| 164 |
Jingchun Li |
Harbin Institute of Technology |
China |
Adaptive DDF Algorithm for SINS/GPS Integration System |
| 165 |
Qianxin Wang |
China University of Mining and Technology |
China |
New algorithm for determining vehicle attitude using GNSS carrier phase difference measurements |
| 166 |
Jun Chen |
Guilin University of Technology |
China |
The applicability of time series to predict TEC value over China in a short term |
| 167 |
Munawar Shah |
Shanghai Astronomical Observatory, CAS |
China |
Pre-seismic ionospheric anomalies of the 2005 Mw=7.8 Kashmir (Pakistan) earthquake from GPS and DEMETER |
| 168 |
Wenju Fu |
Chang'an University |
China |
Performance assessment of BDS regional augmentation using high-rate BDS satellite clock offsets in real-time |
| 169 |
Jing Sun |
Beijing Aerospace Control Center |
China |
Earth satellite observations with VLBI |
| 170 |
Guobin Chang |
China University of Mining and Technology |
China |
Improvements to the least-squares solution to the GNSS pseudo range equations: second-order corrections and quadrature rules |
| 171 |
Yafei Ning |
Institute of Geodesy and Geophysics, CAS |
China |
Three carrier ambiguity resolution with a new ionospheric model constraint |
| 172 |
Kezhen Chen |
Nanjing University of Science and Technology |
China |
A High Dynamic Method for GNSS Carrier Signal Tracking |
| 173 |
Ling Yang |
Tongji University |
China |
Reliability Analysis for Beidou Satellite-induced Code Pseudorange |
| 174 |
Zhijun Liu |
National University of Defence Technology |
China |
Clock Steering Using A Third-order DPLL |
| 175 |
Hui Yan |
Wuhan University |
China |
Analysis of ionospheric variation based on GPS array in Jiangxi |
| 176 |
Pituan Wu |
Guilin University of Technology |
China |
An elaboration study of atmospheric water vapor transfer coefficient model in southwest China |
| 177 |
Maoli Ma |
Shanghai Astronomical Observatory, CAS |
China |
Interplanetary scintillation observation and analysis using MEX downlink signal from VLBI station |
| 178 |
Yuze Wang |
Shanghai Jiao Tong University |
China |
Statistic Modeling of GNSS Multipath Signal in Urban Canyon |
| 179 |
Alexander Gusev |
Kazan Federal University |
Russia |
Inner dynamics and VLBI/GNSS astrometry of the Moon for ChangˇŻE-5/6 and Luna-25/26 missions |
| 180 |
Xingxing Li |
Wuhan University |
China |
Design of Software-defined GPS Receiver for Occultation Data Processing |
| 181 |
Yaozong Zhou |
Central South University |
China |
Higher order ionospheric effects in GNSS positioning in China |
| 182 |
Chuang Shi |
Wuhan University |
China |
Introduction of national BDS augmentation system (NBAS) and its initial results |
| 183 |
Shaocheng Zhang |
China University of Geosciences |
China |
Retrieve Ionosphere TEC from Space-born Observation including Satellite Altimetry and DORIS |
| 184 |
Naifeng Fu |
Shanghai Astronomical Observatory, CAS |
China |
The Comparison of the ionosphere inversion algorithms between CT and KF |
| 185 |
Fade Chen |
Guilin University of Technology |
China |
Accuracy analysis on the weighted mean temperature of the atmosphere grid data offered by GGOS atmosphere after interpolation in Guangxi |
| 186 |
Norman Teferle |
University of Luxembourg |
Luxembourg |
Multi-GNSS Benefits to Real-Time and Long-Term Monitoring Applications |
| 187 |
Shaocheng Zhang |
China University of Geosciences |
China |
Impact of Second Order Ionosphere Delays for Precise Point Positioning Applications |
| 188 |
Yongwei Yan |
Wuhan University |
China |
Algorithm Research and Performance Analysis of BDS Single-Frequency Single -Epoch Attitude Determination |
| 189 |
Linyang Li |
Information Engineering University |
China |
Narrow-lane Fractional Cycle Bias Resolution Based on Robust Estimation and Analysis of Its Time-varying Property |
| 190 |
Nailong Han |
Nanjing University of Science and Technology |
China |
Research of GPS/SINS Integrated System Based on TMS320C6678 |
| 191 |
Zhenbo Liu |
University of Calgary |
Canada |
Low-cost INS/Odometer integration and sensor-to-sensor calibration for land vehicle applications |
| 192 |
Shuangcheng Zhang |
Chang'An University |
China |
Assessment of the Accuracy for sea level change with GNSS-MR Experiment |
| 193 |
Muhammad Adeel Akram |
Shanghai Jiao Tong University |
China |
Optimal Satellite Selection for Robust and Reliable Positioning using Multiple Constellations in Urban Canyons |
| 194 |
Zheng Li |
Beihang University |
China |
A New Method to Bridge GNSS Outages for INS/GNSS Tightly Coupled System with Two Visible Satellites |
| 195 |
Mengjie Wu |
Shanghai Astronomical Observatory, CAS |
China |
Modeling of the Ionospheric F2-layer peak electron density derived from GPS/COSMIC radio occultation observationsn |
| 196 |
Guang-ming Chen |
Beijing Areospace Control Center |
China |
Thermospheric densities derived from the APOD precise orbit |
| 197 |
Ning Wang |
Information Engineering University |
China |
The Gross Error Detection Method for BDS Precision Clock Products |
| 198 |
Xie Li |
Beijing Areospace Control Center |
China |
Processing and calibration of in-situ atmospheric densities for APOD |
| 199 |
Dashuang Sun |
Zhengzhou Institute of Surveying and Mapping |
China |
On-orbit BeiDou satellite clock performance analysis based on the IGS multi-GNSS experiment data |
| 200 |
Shushi Liu |
Beijing Areospace Control Center |
China |
Evaluation of APOD Satellite Orbit with SLR Measurements |
| 201 |
Yang Wang |
Chinese Academy of Surveying & Mapping |
China |
Estimation and characteristic analysis of the fractional parts of carrier-phase biases in BDS/GPS satellite terminal |
| 202 |
Liangke Huang |
Guilin University of Technology |
China |
Analysis of different weighted mean temperature models with radiosonde data in high-altitude China |
| 203 |
Hongzheng Cui |
Qian Xun Positioning Network Co. Ltd. |
China |
Generation of Multi-GNSS Extended Ephemeris for A-GNSS |
| 204 |
Zong Zuo |
Information Engineering University |
China |
Quality Analysis of Antarctic GNSS Data |
| 205 |
Zhe Zhang |
National Time Service Center, CAS |
China |
Precise Clock Determination for Multi-GNSS Satellites Based on IGS/iGMAS Network |
| 206 |
Gangqiang Guan |
National University of Defense Technology |
China |
Signal DOA estimation joint with code acquisition using MMSE criterion |
| 207 |
Per Hoeg |
Technical University of Denmark |
Denmark |
Sea Surface Roughness Determination from GNSS Ocean Scatterometry |
| 208 |
Xiangwei Zhu |
National University of Defense Technology |
China |
The time domain simulation and compensation method of Doppler effect in wide band signal |
| 209 |
Naveed Alam |
Beihang University |
China |
Theoretical performance analysis of traditional and Kalman filter based tracking loop in GNSS software receiver |
| 210 |
Ken Alexander |
U.S. National Coordination Office for PNT |
USA |
United States GPS Status and Modernization |
| 211 |
Xiaochun Lu |
National Time Service Center, CAS |
China |
Monitoring and assessment of GNSS spatial signals |
| 212 |
Wenxin Zhang |
Shanghai Astronomical Observatory, CAS |
China |
High-altitude ionospheric variations following the 2011 Tohoku earthquake from COSMIC GPS Radio Occultation observations |
| 213 |
Norman Teferle |
University of Luxembourg |
Luxembourg |
A New Vertical Land Movements Data Set from a Reprocessing of GNSS at Tide Gauge Stations |
| 214 |
Nengjie Yu |
Space Star Technology Co., Ltd |
China |
Space-based GNSS Signal Monitoring Approach with Real-time Precise Point Positioning |
| 215 |
Norman Teferle |
University of Luxembourg |
Luxembourg |
On the Properties of Zenith Total Delay Time Series from Reprocessed GPS Solutions |
| 216 |
Gang Liu |
Institute of Seismology, CEA |
China |
Performance and Seismic Phase Recognition of Real-time High-rate GNSS Seismometer: Shake table tests and cases study |
| 217 |
Shuai Li |
Tsinghua University |
China |
A quantitative model of observation-domain single-epoch carrier phase multipath error for GPS positioning |
| 218 |
Jiuhou Lei |
University of Science & Technology of China |
China |
Nighttime medium-scale traveling ionospheric disturbances from airglow imager and GNSS observations |
| 219 |
Wenhai Jiao |
China Satellite Navigation Office |
China |
New progress of international GNSS Monitoring and Assessment Service (iGMAS) |
| 220 |
Zhongliang Deng |
Beijing University of Posts and Telecommunications |
China |
Progress and Trend of Indoor Navigations and Location Services |
| 221 |
Penghe Zhang |
University of Nottingham, Ningbo |
China |
Positioning Buried Utilities in Difficult Environments |
| 222 |
Jian Wang |
China University of Mining & Technology |
China |
An investigation to positioning technologies for emergency rescue |
| 223 |
Qin Zhang |
Chang'An University |
China |
xxx |
| 224 |
Shuhua Ye |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
| 225 |
Yang Yu |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
| 226 |
Fei Yin |
China University of Geosciences |
China |
xxx |
| 227 |
Yuei-An Liou |
National Central University |
Taiwan |
xxx |
| 228 |
Maorong Ge |
GFZ German Research Centre for Geosciences |
Germany |
xxx |
| 229 |
Dongkai Yang |
Beihang University |
China |
xxx |
| 230 |
Wei Gao |
Harbin Institute of Technology |
China |
xxx |
| 231 |
Jinling Wang |
University of New South Wales |
Australia |
xxx |
| 232 |
Xinzhe Wang |
China University of Geosciences |
China |
xxx |
| 233 |
Liping Ji |
Chinese Academy of Surveying & Mapping |
China |
xxx |
| 234 |
Longqiang Wang |
China University of Geosciences |
China |
xxx |
| 235 |
Yunbin Yuan |
Institute of Geodesy & Geophysics, CAS |
China |
xxx |
| 236 |
Feixue Wang |
National University of Defense Technology |
China |
xxx |
| 237 |
Wan-Sik Choi |
Electronics & Telecommunications Res. Institute |
South Korea |
xxx |
| 238 |
Jong-Uk Park |
Korea Astronomy & Space Science Institute |
South Korea |
xxx |
| 239 |
Linlin Ge |
University of New South wales |
Australia |
xxx |
| 240 |
Xiaojuan Tian |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
| 241 |
Ling Pei |
Shanghai Jiao Tong University |
China |
xxx |
| 242 |
Qinyun Zhang |
Shanghai University & SHAO |
China |
xxx |
| 243 |
Yuyan Liu |
North China Institute of Aerospace |
China |
xxx |
| 244 |
Wayne Hu |
Springer Nature |
China |
xxx |
| 245 |
Xiaohong Sui |
DFH Satellite Co., Ltd. |
China |
xxx |
| 246 |
Mengchu Huang |
Springer Nature |
China |
xxx |
| 247 |
Enoch Elemo |
Centre for Atmospheric Research |
Nigeria |
xxx |
| 248 |
Wenxian Yu |
Shanghai Jiao Tong University |
China |
xxx |
| 249 |
Manuel Hernandez-Pajares |
Universitat Politecnica de Catalunya |
Spain |
xxx |
| 250 |
Xuechuan Li |
Wuhan University |
China |
xxx |
| 251 |
Xiaogong Hu |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
| 252 |
Fei Ma |
Shanghai AllyNav Technology Co., LTD |
China |
xxx |
| 253 |
Amjad Ali |
King Fahd University of Petroleum and Minerals |
Saudi Arabia |
xxx |
| 254 |
Yang Zhou |
Shanghai University & SHAO |
China |
xxx |
| 255 |
Yi Yang |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
| 256 |
Mostafa S. Abd-Elbaky |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
| 257 |
Shaoming Xin |
Wuhan University |
China |
xxx |
| 258 |
Falin Wu |
Beihang University |
China |
xxx |
| 259 |
Ruoxi Li |
University of Science & Technology of China |
China |
xxx |
| 260 |
Liangliang Yuan |
Nanjing University |
China |
xxx |
| 261 |
Fuqing Huang |
University of Science & Technology of China |
China |
xxx |
| 262 |
Jianghui Geng |
Wuhan University |
China |
xxx |
| 263 |
Xin Liu |
Shanghai University & SHAO |
China |
xxx |
| 264 |
Ying Li |
Institute of Geodesy & Geophysics, CAS |
China |
xxx |
| 265 |
Cong Chen |
Sichuan Earthquake Bureau |
China |
xxx |
| 265 |
Yuan Lu |
Geological Survey of Canada |
Canada |
xxx |
| 266 |
Wei Ban |
Wuhan University |
China |
xxx |
| 267 |
Jiang Guo |
Wuhan University |
China |
xxx |
| 268 |
Fei Shi |
North China Institute of Aerospace Engineering |
China |
xxx |
| 269 |
Jing Zhang |
Nanjing University |
China |
xxx |
| 270 |
Haihui Xu |
Chuangyu Xingtong Ltd. |
China |
xxx |
| 271 |
Xiaosheng Xin |
Nanjing University |
China |
xxx |
| 272 |
Liping Zhao |
China Science and Technology Exchange Center |
China |
xxx |
| 273 |
Huan Xi |
China Science and Technology Exchange Center |
China |
xxx |
| 274 |
Mudan Su |
China Satellite Navigation Office |
China |
xxx |
| 275 |
Guillermo Acosta |
Capital Regional District |
Canada |
xxx |
| 276 |
Xiaoyu Hong |
Shanghai Astronomical Observatory, CAS |
China |
xxx |
