GPS, GNSS Network, Radio Occultation

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GPS. RNSS. Radio Occultation.

Zhang, X.H.[Xiao-Hong], Gao, P.[Pan], Xu, X.H.[Xiao-Hua],
Variations of the Tropopause Over Different Latitude Bands Observed Using COSMIC Radio Occultation Bending Angles,
GeoRS(52), No. 5, May 2014, pp. 2339-2349.
Bending angle BibRef

Li, Y.S., Hwang, C., Tseng, T.P., Huang, C.Y., Bock, H.,
A Near-Real-Time Automatic Orbit Determination System for COSMIC and Its Follow-On Satellite Mission: Analysis of Orbit and Clock Errors on Radio Occultation,
GeoRS(52), No. 6, June 2014, pp. 3192-3203.
Clocks BibRef

Blackwell, W.J., Bishop, R., Cahoy, K., Cohen, B., Crail, C., Cucurull, L., Dave, P., di Liberto, M., Erickson, N., Fish, C., Ho, S., Leslie, R.V., Milstein, A.B., Osaretin, I.A.,
Radiometer Calibration Using Colocated GPS Radio Occultation Measurements,
GeoRS(52), No. 10, October 2014, pp. 6423-6433.
Atmospheric modeling BibRef

Cardellach, E., Tomas, S., Oliveras, S., Padulles, R., Rius, A., de la Torre-Juarez, M., Turk, F.J., Ao, C.O., Kursinski, E.R., Schreiner, B., Ector, D., Cucurull, L.,
Sensitivity of PAZ LEO Polarimetric GNSS Radio-Occultation Experiment to Precipitation Events,
GeoRS(53), No. 1, January 2015, pp. 190-206.
atmospheric measuring apparatus BibRef

Gao, P.[Pan], Xu, X.H.[Xiao-Hua], Zhang, X.H.[Xiao-Hong],
Characteristics of the Trends in the Global Tropopause Estimated From COSMIC Radio Occultation Data,
GeoRS(53), No. 12, December 2015, pp. 6813-6822.
El Nino Southern Oscillation BibRef

Yue, X., Schreiner, W.S., Kuo, Y.H., Braun, J.J., Lin, Y.C., Wan, W.,
Observing System Simulation Experiment Study on Imaging the Ionosphere by Assimilating Observations From Ground GNSS, LEO-Based Radio Occultation and Ocean Reflection, and Cross Link,
GeoRS(52), No. 7, July 2014, pp. 3759-3773.
Data models BibRef

Wang, K.N., Garrison, J.L., Acikoz, U., Haase, J.S., Murphy, B.J., Muradyan, P., Lulich, T.,
Open-Loop Tracking of Rising and Setting GPS Radio-Occultation Signals From an Airborne Platform: Signal Model and Error Analysis,
GeoRS(54), No. 7, July 2016, pp. 3967-3984.
Atmospheric measurements BibRef

Mao, T., Sun, L., Yang, G., Yue, X., Yu, T., Huang, C., Zeng, Z., Wang, Y., Wang, J.,
First Ionospheric Radio-Occultation Measurements From GNSS Occultation Sounder on the Chinese Feng-Yun 3C Satellite,
GeoRS(54), No. 9, September 2016, pp. 5044-5053.
E-region BibRef

Martín-Neira, M.,
GNSS Interferometric Radio Occultation,
GeoRS(54), No. 9, September 2016, pp. 5285-5300.
Global Positioning System BibRef

Chang, L., Song, S., Feng, G., Zhang, Y., Gao, G.,
Assessment of the Uncertainties in Arctic Low-Level Temperature Inversion Characteristics in Radio Occultation Observations,
GeoRS(55), No. 3, March 2017, pp. 1793-1803.
Arctic BibRef

Tomás, S., Padullés, R., Cardellach, E.,
Separability of Systematic Effects in Polarimetric GNSS Radio Occultations for Precipitation Sensing,
GeoRS(56), No. 8, August 2018, pp. 4633-4649.
atmospheric techniques, rain, remote sensing, satellite navigation, systematic effects, polarimetric GNSS radio occultations, rainfall effects BibRef

Norman, R., Carter, B.A., Healy, S.B., Culverwell, I.D., von Engeln, A., Le Marshall, J., Younger, J.P., Cate, A., Zhang, K.,
Ionospheric Regions Producing Anomalous GNSS Radio Occultation Results,
GeoRS(56), No. 12, December 2018, pp. 7350-7358.
Global navigation satellite system, Atmospheric modeling, Meteorology, Ionosphere, Satellite broadcasting, ray tracing BibRef

dos Santos Prol, F.[Fabricio], Hernández-Pajares, M.[Manuel], de Assis Honorato Muella, M.T.[Marcio Tadeu], de Oliveira Camargo, P.[Paulo],
Tomographic Imaging of Ionospheric Plasma Bubbles Based on GNSS and Radio Occultation Measurements,
RS(10), No. 10, 2018, pp. xx-yy.
DOI Link 1811

dos Santos Prol, F.[Fabricio], de Oliveira Camargo, P.[Paulo], Hernández-Pajares, M.[Manuel], de Assis Honorato Muella, M.T.[Marcio Tadeu],
A New Method for Ionospheric Tomography and Its Assessment by Ionosonde Electron Density, GPS TEC, and Single-Frequency PPP,
GeoRS(57), No. 5, May 2019, pp. 2571-2582.
electron density, F-region, geophysical signal processing, Global Positioning System, image reconstruction, ionosphere, radio occultation (RO) BibRef

Liu, Z.D.[Zhen-Di], Fang, H.X.[Han-Xian], Hoque, M.M., Weng, L.B.[Li-Bin], Yang, S.G.[Sheng-Gao], Gao, Z.[Ze],
A New Empirical Model of NmF2 Based on CHAMP, GRACE, and COSMIC Radio Occultation,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
NmF2 observational data from ionospheric radio occultation. BibRef

Wang, H.[Han], Luo, J.[Jia], Xu, X.H.[Xiao-Hua],
Ionospheric Peak Parameters Retrieved from FY-3C Radio Occultation: A Statistical Comparison with Measurements from COSMIC RO and Digisondes Over the Globe,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907

Xu, X.H.[Xiao-Hua], Han, Y.[Yi], Luo, J.[Jia], Wickert, J.[Jens], Asgarimehr, M.[Milad],
Seeking Optimal GNSS Radio Occultation Constellations Using Evolutionary Algorithms,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903

Han, B., Morton, Y., Gunawan, E., Xu, D.,
Planetary Boundary Layer Height Detection Using Mountaintop-Based GNSS Radio Occultation Signal Amplitude,
GeoRS(57), No. 7, July 2019, pp. 4332-4348.
Global navigation satellite system, Refractive index, Receivers, Terrestrial atmosphere, Satellite broadcasting, Sea measurements, planetary boundary layer height (PBLH) BibRef

Cigala, V.[Valeria], Biondi, R.[Riccardo], Prata, A.J.[Alfredo J.], Steiner, A.K.[Andrea K.], Kirchengast, G.[Gottfried], Brenot, H.[Hugues],
GNSS Radio Occultation Advances the Monitoring of Volcanic Clouds: The Case of the 2008 Kasatochi Eruption,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910

Turk, F.J.[F. Joseph], Padullés, R.[Ramon], Ao, C.O.[Chi O.], de la Torre Juárez, M.[Manuel], Wang, K.N.[Kuo-Nung], Franklin, G.W.[Garth W.], Lowe, S.T.[Stephen T.], Hristova-Veleva, S.M.[Svetla M.], Fetzer, E.J.[Eric J.], Cardellach, E.[Estel], Kuo, Y.H.[Yi-Hung], Neelin, J.D.[J. David],
Benefits of a Closely-Spaced Satellite Constellation of Atmospheric Polarimetric Radio Occultation Measurements,
RS(11), No. 20, 2019, pp. xx-yy.
DOI Link 1910

Li, Y.[Ying], Kirchengast, G.[Gottfried], Scherllin-Pirscher, B.[Barbara], Schwaerz, M.[Marc], Nielsen, J.K.[Johannes K.], Ho, S.P.[Shu-Peng], Yuan, Y.B.[Yun-Bin],
A New Algorithm for the Retrieval of Atmospheric Profiles from GNSS Radio Occultation Data in Moist Air and Comparison to 1DVar Retrievals,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912

Ribó, S.[Serni], Li, W.Q.[Wei-Qiang], Cardellach, E.[Estel], Fabra, F.[Fran], Padullés, R.[Ramon], Rius, A.[Antonio], Martín-Neira, M.[Manuel],
Experimental Validation of GNSS Interferometric Radio Occultation,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link 1912

Murphy, M.J.[Michael J.], Haase, J.S.[Jennifer S.], Padullés, R.[Ramon], Chen, S.H.[Shu-Hua], Morris, M.A.[Margaret A.],
The Potential for Discriminating Microphysical Processes in Numerical Weather Forecasts Using Airborne Polarimetric Radio Occultations,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910

Gorbunov, M.[Michael], Stefanescu, R.[Razvan], Irisov, V.[Vladimir], Zupanski, D.[Dusanka],
Variational Assimilation of Radio Occultation Observations into Numerical Weather Prediction Models: Equations, Strategies, and Algorithms,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912

Iacovazzi, R.[Robbie], Lin, L.[Lin], Sun, N.[Ninghai], Liu, Q.H.[Quan-Hua],
NOAA Operational Microwave Sounding Radiometer Data Quality Monitoring and Anomaly Assessment Using COSMIC GNSS Radio-Occultation Soundings,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link 2003

Johnston, B.[Benjamin], Xie, F.[Feiqin],
Characterizing Extratropical Tropopause Bimodality and its Relationship to the Occurrence of Double Tropopauses Using COSMIC GPS Radio Occultation Observations,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004

Innerkofler, J.[Josef], Kirchengast, G.[Gottfried], Schwärz, M.[Marc], Pock, C.[Christian], Jäggi, A.[Adrian], Andres, Y.[Yago], Marquardt, C.[Christian],
Precise Orbit Determination for Climate Applications of GNSS Radio Occultation including Uncertainty Estimation,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004

Wei, J.[Jinde], Li, Y.[Ying], Zhang, K.[Kefei], Liao, M.[Mi], Bai, W.H.[Wei-Hua], Liu, C.L.[Cong-Liang], Liu, Y.[Yan], Wang, X.M.[Xiao-Ming],
An Evaluation of Fengyun-3C Radio Occultation Atmospheric Profiles Over 2015-2018,
RS(12), No. 13, 2020, pp. xx-yy.
DOI Link 2007

Li, F.H.[Feng-Hui], Hou, C.P.[Chun-Ping], Kan, L.[Liang], Fu, N.F.[Nai-Feng], Wang, M.[Meng], Wang, Z.P.[Zhi-Peng],
Mountain Top-Based Atmospheric Radio Occultation Observations with Open/Closed Loop Tracking: Experiment and Validation,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012

Wu, D.L.[Dong L.],
Ionospheric S4 Scintillations from GNSS Radio Occultation (RO) at Slant Path,
RS(12), No. 15, 2020, pp. xx-yy.
DOI Link 2008

Li, Y.[Ying], Yuan, Y.[Yunbin], Wang, X.M.[Xiao-Ming],
Assessments of the Retrieval of Atmospheric Profiles from GNSS Radio Occultation Data in Moist Tropospheric Conditions Using Radiosonde Data,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009

Kamal, S.[Sumon], Jakowski, N.[Norbert], Hoque, M.M.[Mohammed M.], Wickert, J.[Jens],
Evaluation of E Layer Dominated Ionosphere Events Using COSMIC/FORMOSAT-3 and CHAMP Ionospheric Radio Occultation Data,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001

Xu, X.[Xu], Zou, X.L.[Xiao-Lei],
Global 3D Features of Error Variances of GPS Radio Occultation and Radiosonde Observations,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101

Sievert, T.[Thomas], Rasch, J.[Joel], Carlström, A.[Anders], Barbosa, V.L.[Vinícius Ludwig], Pettersson, M.I.[Mats I.], Vu, V.[Viet],
Using A Sliding Window Phase Matching Method for Imaging of GNSS Radio Occultation Signals,
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103

Chen, S.Y.[Shu-Ya], Liu, C.Y.[Chian-Yi], Huang, C.Y.[Ching-Yuang], Hsu, S.C.[Shen-Cha], Li, H.W.[Hsiu-Wen], Lin, P.H.[Po-Hsiung], Cheng, J.P.[Jia-Ping], Huang, C.Y.[Cheng-Yung],
An Analysis Study of FORMOSAT-7/COSMIC-2 Radio Occultation Data in the Troposphere,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link 2103

Adhikari, L.[Loknath], Ho, S.P.[Shu-Peng], Zhou, X.[Xinjia],
Inverting COSMIC-2 Phase Data to Bending Angle and Refractivity Profiles Using the Full Spectrum Inversion Method,
RS(13), No. 9, 2021, pp. xx-yy.
DOI Link 2105

Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
GPS Tropospheric Delay, Troposhperic Effects .

Last update:May 10, 2021 at 18:51:10