ECEF Position Accuracy and Reliability:Continent Scale Differential GNSS Approaches (Phase C Report)
暂无分享,去创建一个
Farzana Rahman | Zeyi Jiang | Jay A. Farrell | Felipe Silva | Farzana Rahman | J. Farrell | F. Rahman | Zeyi Jiang | Felipe Silva | Felipe O. Silva
[1] H. Black. An easily implemented algorithm for the tropospheric range correction , 1978 .
[2] J. Klobuchar. Ionospheric Time-Delay Algorithm for Single-Frequency GPS Users , 1987, IEEE Transactions on Aerospace and Electronic Systems.
[3] Patricia H. Doherty,et al. Potential Ionospheric Limitations to Wide-Area Differential GPS , 1993 .
[4] Yang Gao,et al. Performance Analysis of Precise Point Positioning Using Rea-Time Orbit and Clock Products , 2004 .
[5] A. E. Niell,et al. Improved atmospheric mapping functions for VLBI and GPS , 2000 .
[6] Willy Bertiger,et al. An Internet-based Global Differential GPS System, Initial Results , 2000 .
[7] J. Zumberge,et al. Precise point positioning for the efficient and robust analysis of GPS data from large networks , 1997 .
[8] Bradford W. Parkinson,et al. Global positioning system : theory and applications , 1996 .
[9] C. Kee,et al. Wide area differential GPS (WADGPS): future navigation system , 1996, IEEE Transactions on Aerospace and Electronic Systems.
[10] J. Kouba,et al. GPS Precise Point Positioning Using IGS Orbit Products , 2001 .
[11] Tomasz Hadas,et al. IGS RTS precise orbits and clocks verification and quality degradation over time , 2014, GPS Solutions.
[12] Alison Brown,et al. Extended differential GPS , 1989 .
[13] R. Langley,et al. UNB Neutral Atmosphere Models : Development and Performance , 2006 .
[14] S Choy. Investigation into the accuracy of single frequency precise point positioning (PPP) , 2009 .
[15] Charles Wang,et al. Multi-GNSS precise point positioning with raw single-frequency and dual-frequency measurement models , 2016, GPS Solutions.
[16] Michael S. Braasch,et al. GPS receiver architectures and measurements , 1999, Proc. IEEE.
[17] Christian Tiberius,et al. Real-time multi-GNSS single-frequency precise point positioning , 2017, GPS Solutions.
[18] Patricia H. Doherty,et al. The FAA Wide Area Differential GPS (WADGPS) Static Ionospheric Experiment , 1993 .
[19] Marcelo C. Santos,et al. Tropospheric delay modelling for the EGNOS augmentation system , 2017 .
[20] Christian Tiberius,et al. Real-time single-frequency precise point positioning: accuracy assessment , 2012, GPS Solutions.
[21] T Mueller,et al. Wide area differential GPS , 1994 .
[22] A. Rius,et al. Estimation of the transmitter and receiver differential biases and the ionospheric total electron content from Global Positioning System observations , 1994 .
[23] Grzegorz Krzan,et al. GPS/GLONASS precise point positioning with IGS Real-time service product , 2015 .
[24] Bradford W. Parkinson,et al. Algorithms and Implementation of Wide Area Differential GPS , 1992 .
[25] Jaume Sanz,et al. New approaches in global ionospheric determination using ground GPS data , 1999 .
[26] Timothy Fuller-Rowell,et al. Differential validation of the US‐TEC model , 2007 .
[27] Euiho Kim,et al. Optimal Divergence-Free Hatch Filter for GNSS Single-Frequency Measurement , 2017, Sensors.
[28] Per K. Enge,et al. Global positioning system: signals, measurements, and performance [Book Review] , 2002, IEEE Aerospace and Electronic Systems Magazine.
[29] Bradford W. Parkinson,et al. INCORPORATION OF ORBITAL DYNAMICS TO IMPROVE WIDE-AREA DIFFERENTIAL GPS. , 1995 .
[30] Aleksandar Jovancevic,et al. Ionospheric measurement with GPS: Receiver techniques and methods , 2007 .
[31] William Whyte,et al. Connected Vehicle Pilot Deployment Program Phase 2 : Data Privacy Plan – New York City , 2016 .
[32] D. Laurichesse,et al. The CNES Real-time PPP with Undifferenced Integer Ambiguity Resolution Demonstrator , 2011 .
[33] B. Hofmann-Wellenhof,et al. Global Positioning System , 1992 .
[34] Ashraf Farah,et al. Accuracy Assessment Study of UNB3m Neutral Atmosphere Model for Global Tropospheric Delay Mitigation , 2015 .
[35] Avram Tetewsky,et al. Making sense of Inter-signal Corrections accounting for gPs satellite Calibration Parameters in legacy and Modernized Ionosphere Correction algorithms , 2009 .
[36] Per Enge,et al. Special Issue on Global Positioning System , 1999, Proc. IEEE.
[37] G. Lanyi,et al. Tropospheric Delay Effects in Radio Interferometry , 1984 .
[38] Peter Teunissen,et al. Review and principles of PPP-RTK methods , 2015, Journal of Geodesy.
[39] R. P. Denaro,et al. Worldwide differential GPS for Space Shuttle landing operations , 1990, IEEE Symposium on Position Location and Navigation. A Decade of Excellence in the Navigation Sciences.
[40] Ying Li,et al. Assessment of Three Tropospheric Delay Models (IGGtrop, EGNOS and UNB3m) Based on Precise Point Positioning in the Chinese Region , 2016, Sensors.
[41] Volker Wilken,et al. Total electron content models and their use in ionosphere monitoring , 2010 .
[42] Wenjiao Liu,et al. Positioning performance of single-frequency GNSS receiver using Australian regional ionospheric corrections , 2016 .
[43] T. Herring,et al. GPS Meteorology: Remote Sensing of Atmospheric Water Vapor Using the Global Positioning System , 1992 .
[44] Atsushi Shimamura. MSAS (MTSAT satellite-based augmentation system) project status , 1998 .
[45] Alan Dodson,et al. Towards PPP-RTK: Ambiguity resolution in real-time precise point positioning , 2011 .
[46] J. Saastamoinen. Atmospheric Correction for the Troposphere and Stratosphere in Radio Ranging Satellites , 2013 .
[47] J. Kouba. A GUIDE TO USING INTERNATIONAL GNSS SERVICE (IGS) PRODUCTS , 2003 .
[48] Manuela Herman,et al. Aided Navigation Gps With High Rate Sensors , 2016 .
[49] Tim Fuller-Rowell. USTEC: a new product from the Space Environment Center characterizing the ionospheric total electron content , 2005 .
[50] Per Enge,et al. Wide area augmentation of the Global Positioning System , 1996, Proc. IEEE.
[51] Yang Gao,et al. An Approach to Speed up Single-Frequency PPP Convergence with Quad-Constellation GNSS and GIM , 2017, Sensors.
[52] R. Langley,et al. Limiting Factors in Tropospheric Propagation Delay Error Modelling for GPS Airborne Navigation , 1996 .
[53] Stephen L Reich,et al. Connected vehicle pilot deployment program phase II data privacy plan – Tampa (THEA). , 2017 .
[54] Tony English,et al. Connected Vehicle Pilot Deployment Program Phase 2, Data Management Plan: Wyoming , 2017 .
[55] Geoffrey Blewitt,et al. Basics of the GPS Technique : Observation Equations , 2000 .
[56] Dhiraj Sunehra,et al. TEC and Instrumental Bias Estimation of GAGAN Station Using Kalman Filter and SCORE Algorithm , 2016 .
[57] R. Hatch. The synergism of GPS code and carrier measurements , 1982 .
[58] Jay A. Farrell,et al. ECEF position accuracy and reliability in the presence of differential correction latency , 2018, 2018 IEEE/ION Position, Location and Navigation Symposium (PLANS).
[59] Chris Hill,et al. Wide Area Differential GPS: A Performance Study , 1992 .
[60] Lin Zhao,et al. Real-Time Single Frequency Precise Point Positioning Using SBAS Corrections , 2016, Sensors.
[61] P.K. Enge,et al. Differential operation of the Global Positioning System , 1988, IEEE Communications Magazine.
[62] Zhizhao Liu,et al. Single-frequency Ionosphere-free Precise Point Positioning Using Combined GPS and GLONASS Observations , 2013 .
[63] Christopher Hegarty,et al. Understanding GPS/GNSS: Principles and Applications , 2017 .
[64] Kwan-Dong Park,et al. Development and Positioning Accuracy Assessment of Single-Frequency Precise Point Positioning Algorithms by Combining GPS Code-Pseudorange Measurements with Real-Time SSR Corrections , 2017, Sensors.
[65] C. Chao,et al. The tropospheric calibration model for Mariner Mars 1971 , 1974 .
[66] Anthony J. Mannucci,et al. A global mapping technique for GPS‐derived ionospheric total electron content measurements , 1998 .
[67] I. Shapiro,et al. Geodesy by radio interferometry: Effects of atmospheric modeling errors on estimates of baseline length , 1985 .
[68] Jay A. Farrell,et al. Outlier Accommodation By Risk-Averse Performance-Specified Linear State Estimation , 2018, 2018 IEEE Conference on Decision and Control (CDC).
[69] Gérard Lachapelle,et al. GPS Observables and Error Sources for Kinematic Positioning , 1991 .
[70] Sunil Bisnath,et al. Current State of Precise Point Positioning and Future Prospects and Limitations , 2009 .
[71] Paulo de Oliveira Camargo,et al. COMPARATIVE STUDY OF METHODS FOR CALCULATING IONOSPHERIC POINTS AND DESCRIBING THE GNSS SIGNAL PATH , 2017 .
[72] H. S. Hopfield. Two- quartic tropospheric refractivity profile for correcting satellite data , 1969 .
[73] Jay A. Farrell,et al. Earth-Centered Earth-Fixed (ECEF) Vehicle State Estimation Performance , 2019, 2019 IEEE Conference on Control Technology and Applications (CCTA).
[74] Pierre Héroux,et al. Precise Point Positioning Using IGS Orbit and Clock Products , 2001, GPS Solutions.