?1、An Improvement To Ionospheric Delay Correction For Single Frequency GPS user—the APR-I Scheme. Journal of Geodesy,2001 ?2、Auto-Covariance Estimation of Variable Samples (ACEVS) and Its Application for Monitoring Random Ionosphere Using GPS. Journal of Geodesy,2001.? ?3、Differential Areas for Differential Stations (DADS):A New Method of Establishing Grid Ionospheric Model. Chinese Science Bulletin,2002? ?4、Preliminary results and analyses of using IGS GPS data to determine global ionospheric TEC. Progress in Natural Science,2003? ?5、Ionospheric Eclipse Factor Method (IEFM) for determining the Ionospheric Delay Using GPS Data. Progress in Natural Science,2004 ?6、A generalized trigonometric series function model for determining ionospheric delay. Progress in Natural Science,2004? ?7、Models and Methods for precise determination of ionospheric delays using GPS. Progress in Natural Science,2007 ?8、The ionospheric eclipse factor method (IEFM) and its application to determining the ionospheric delay for GPS,Journal of geodesy,2008 ?9、Refining the Klobuchar Ionospheric coefficients Based on GPS Observations. IEEE transactions on aerospace and electronic systems,2008 ?10、Three- dimensional ionospheric tomography by an improved algebraic reconstruction technique. GPS solutions,2007 ?11、Ionospheric spatial and temporal variations during 18 August 2003 storm over China. Earth Planets and Space,2007 ?12、Monitoring the 3-dimensional ionospheric electron density distribution using GPS observation over China. Journal of Earth System Science,2007 ?13、A hybrid reconstruction algorithm for 3-D ionospheric tomography. IEEE Transactions on Geoscience and Remote Sensing,2008 ?14、An improved regularization method for estimating near real-time systematic errors suitable for medium-long GPS baselines solutions. Earth Planets and Space,2008 ?15、Bailey Monitoring the global-scale winter anomaly of total electron contents using GPS data. Earth Planets and Space,2009 ?16、A model analysis method on the effect of second-order ionospheric delay on GPS positioning. Chinese Science Bulletin,2010 ?17、Reliability Analysis for a Robust M-Estimator. Journal of Surveying Engineering,2011 ?18、Yaw attitude of eclipsing GPS satellites and its impact on solutions from precise point positioning,Chinese Science Bulletin,2010 ?19、Ionospheric response to the magnetic storm on 21 August 2003 over China using GPS-based tomographic technique .IEEE Transactions on Geoscience and Remote Sensing,2010? ?20、Monitoring the Daytime Variations of Equatorial Ionospheric Anomaly using IONEX data and CHAMP GPS data. IEEE Transactions on Geoscience and Remote Sensing,2011 ?21、Strategy of Data Processing for GPS Rover and Reference Receivers Using Different Sampling Rates. IEEE Transactions on Geoscience and Remote Sensing,2011 ?22、Ionospheric electron concentra- tion imaging using combing of LEO Satellites Data with Ground-based GPS Observations over China. IEEE Transactions on Geoscience and Remote Sensing,2011 ?23、 A new global zenith tropo- spheric delay model IGGtrop for GNSS applications. Chinese Science Bulletin,doi: 2012.? ?24、Two-step method for the determination of the differential code biases ofCOMPASSsatellites. Journal of geodesy,2012. ?25、Extraction of line-of-sight ionosph- eric observables from GPS data using precise point positioning.SCIENCECHINA-EARTHSCIENCES,2012 ?26、Determination of the Differential Code Bias for Current BDS Satellites. IEEE Transactions on Geoscience and Remote Sensing. 2014. ?27、New versions of the BDS/GNSS zenith tropospheric delay model IGGtrop,Journal of Geodesy,2015. ?28、SHPTS: towards a new method for generating precise global ionospheric TEC map based on spherical harmonic and generalized trigonometric series functions. Journal of Geodesy,2015. ?29、Dynamic statistical optimization of GNSS radio occultation bending angles: advanced algorithm and performance analysis. Atmos.Meas.Tech,2015 ?30、Determination of differential code biases with multi-GNSS observations. Journal of Geodesy,2016 ?31、QIF-based GPS Long-baseline Ambiguity Resolution with the Aid of Atmospheric Delays Determined by PPP,THEJOURNALOFNAVIGATION. ?32、An examination of the Galileo NeQuick model: comparison with? GPS and JASON TEC,GPS Solutions,2016 ?33、A new analytical solar radiation pressure modelIGGBSPMfor current BDS satellites. Scientific Reports,2016 ?34、Initial Results of Precise Orbit Determination for the New-Generation BeiDou Satellites (BeiDou-3) Based on the iGMAS Network. ISPRS International Journal of Geo-Information,2016 ?35、On the short-term temporal variations of GNSS receiver differential phase biases. Journal of Geodesy,2016. ?36、GLONASSpseu- dorange inter-channel biases considerations when jointly estima- ting GPS andGLONASSclock.GPS Solutions,2017 ?37、Multi-GNSS precise point positioning (MGPPP) using raw observationsand preliminary results. Journal of Geodesy,2017 ?38、Estimation and analysis of Galileo differential code biases. Journal of Geodesy,2017 ?39、Characteristics of the global thermal tropopause derived from multiple radio occultation? measurements. Atmospheric Research,2017 ?40、An evaluation of real-time troposphere estimation based on GNSS Precise Point Positioning. Journal of Geophysical Research - Atmospheres 2017. ?41、GPS PPP-derived precipitable water vapor retrieval based on Tm/Ps from multiple sources of meteorological data sets in China. Journal of Geophysical Research-Atmospheres.2017 ?42、A modified geometry-free and ionosphere-free combination for static three-carrier ambiguity resolution,GPS Solutions,2017. ?43、Determination of the optimized single-layer ionospheric height for electron content measurements over China,Journal of Geodesy,2017 ?44、Multi-dimensional distribution of near-field ionospheric distur- bances produced by the 2015 Mw7.8 Nepal earthquake. Journal of Asian Earth Sciences,2017 ?45、Joint estimation of vertical total electron content (VTEC) and satellite differential code biases (SDCBs) using low-cost receivers,2017,Journal of Geodesy ?46、GPS receiver phase biases estimable in PPP-RTK networks: dynamic characterization and impact analysis. Journal of Geodesy,2017 ?47、Consistency of seven different GNSS global ionospheric mapping techniques during one solar cycle.Journal of Geodesy,2017 ?48、A Method of Generating Grid-based Tropospheric Product Using A GNSS Network,Case Study: China,Journal of Geodesy,2017 ?49、Estimation and analysis of the short-term variations of multi-GNSS receiver differential code biases using global ionosphere maps,Journal of Geodesy,2017 ?50、Real-Time Precise Point Positioning (RTPPP) with raw observations and its application in real-time regional ionospheric VTEC modeling. Journal of Geodesy,2018 ?51、GPS,BDS and Galileo ionospheric correction models: An evaluation in range delay and position domain. Journal of Atmospheric and Solar-Terrestrial Physics,2018 ?52、A modified carrier-to-code leveling method for retrieving ionospheric observables and detecting short-term temporal variability of receiver differential code biases. Journal of Geodesy,2018. ?53、Performance of various predicted GNSS global ionospheric maps relative to GPS and JASON TEC data. GPS Solutions,2018. ?54、IGGtrop_SH and IGGtrop_rH: two improved empirical tropospheric delay models based on vertical reduction functions . IEEE TGRS,2018. ?55、A modified mix-differenced approach for estimating multi-GNSS real-time satellite clock offsets. GPS Solutions 2018. ?56、Ionosphere Sensing With a Low-Cost,Single-Frequency,Multi-GNSS Receiver.? IEEE Transactions on Geoscience and Remote Sensing,August 2018. ?57、Multi-GNSS triple-frequency differential code bias (DCB) determination with precise point positioning (PPP). Journal of Geodesy,2018. ?58、Combined GPS+BDS instantaneous single- and dual-frequency RTK positioning: stochastic modeling and performance assessment. Journal of Spatial Science,2018? ?59、PPP-RTK based on undifferenced and uncombined observations: theoretical and practical aspects. Journal of Geodesy,2019 ?60、Single-frequency precise point positioning (PPP) for retrieving ionospheric TEC from BDS B1 data. GPS Solutions,2019 ?61、One-Step Method for Five-System Ultra-Rapid Precise Orbit Determination Based on the Double-Difference Observation Model and Software Development. Remote Sensing,2019 ?62、Analysis of the stochastic characteristics of GPS/BDS/Galileo multi-frequency observables with different types of receivers. Journal: Journal of Spatial Science,2019 ?63、The BeiDou Global Broadcast Ionospheric Delay Correction Model (BDGIM) and Its Preliminary Performance Evaluation Results.NAVIGATION,2019 ?64、A real-time precipitable water vapor monitoring system using the national GNSS network of China: method and preliminary results. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,2019 ?65、An efficient undifferenced method for estimating multi-GNSS high-rate clock corrections with data streams in real time. Journal of Geodesy,2019. ?66、A three-step method for determining unhealthy time period of GPS satellite orbit in broadcast ephemeris and its preliminary applications for precise orbit determination. Remote Sensing 2019 ?67、Multi-GNSS inter system biases: estimability analysis and impact on RTK positioning .GPS Solutions (2019) ?68、Use of modified carrier-to-code leveling to analyze temperature dependence of multi-GNSS receiver DCB and retrieve ionospheric TEC. GPS Solutions,2019 ?69、Simultaneous Retrieval of Precipitable Water Vapor (PWV) and Vertical Total Electron Content (VTEC) by Low-cost Multi-GNSS Single-frequency Receivers. Earth and Space Science,2019 ?70、A new algorithm for the retrieval of atmospheric profiles from GNSS radio occultation data in moist air and comparison to 1DVar retrievals. Remote Sensing,2019 .
人才隊(duì)伍