Topside Ionospheric Tomography Exclusively Based on LEO POD GPS Carrier Phases: Application to Autonomous LEO DCB Estimation

GPS Receiver and Satellite DCB Estimation using Ionospheric TEC

Byung-Kyu Choi
Sung-Ki Cho
Sang-Jeong Lee

June 2009

We estimated the receiver and satellite differential code bias (DCB) based on the ionospheric total ...

E-LETTER Earth Planets Space, 60, e25–e28, 2008 Efficient GPS receiver DCB estimation for ionosphere modeling using satellite-receiver geometry changes

Chang-ki Hong
Dorota A. Grejner-brzezinska
Jay Hyoun Kwon

November 2014

A new and efficient algorithm using the geometry conditions between satellite and tracking receivers...

Accurate ionospheric delay model for real-time GPS-based positioning of LEO satellites using horizontal VTEC gradient estimation

Renga, Alfredo
Causa, Flavia
Tancredi, Urbano
Grassi, Michele

January 2018

Ionospheric delays compensation is a mandatory step for precise absolute and relative positioning of...

Topside Ionospheric Tomography Exclusively Based on LEO POD GPS Carrier Phases: Application to Autonomous LEO DCB Estimation

Hernández-Pajares, Manuel
Olivares-Pulido, Germán
Hoque, M. Mainul
Prol, Fabricio S.
Yuan, Liangliang
Notarpietro, Riccardo
Graffigna, Victoria

January 2023

This paper presents a novel technique to estimate DCBs from GPS transmitters and receivers on-board ...

Topside ionospheric tomography exclusively based on LEO POD GPS carrier phases: Application to autonomous LEO DCB estimation

Hernández-Pajares, Manuel
Olivares-Pulido, Germán
Hoque, Mainul M.
Prol, Fabricio S.
Yuan, Liangliang
Notarpietro, Riccardo
Graffigna, Victoria

January 2023

This article belongs to the Special Issue New Insights in GNSS Remote Sensing for Ionosphere Monitor...

Topside ionospheric tomography exclusively based on LEO POD GPS carrier phases: application to autonomous LEO DCB estimation

Hernández Pajares, Manuel
Olivares Pulido, Germán
Hoque, Mainul
Prol, Fabricio dos Santos
Yuan, Liangliang
Notarpietro, Riccardo
Graffigna, Victoria

January 2023

This paper presents a novel technique to estimate DCBs from GPS transmitters and receivers on-board ...

A new method to estimate GPS satellite and receiver differential code biases using a network of LEO satellites

Yuan, L
Hoque, M Mainul
Jin, Shuanggen

January 2021

The differential code biases (DCBs) of the global positioning system (GPS) receiver onboard low-Eart...

Handling of ionospheric delays for Carrier Phase Differential GPS in LEO formation flying

Tancredi, Urbano

January 2013

The paper investigates different solutions for handling of ionospheric delays in high accuracy long ...

HANDLING OF IONOSPHERIC DELAYS FOR CARRIER PHASE DIFFERENTIAL GPS IN LEO FORMATION FLYING

RENGA, ALFREDO
GRASSI, MICHELE
U. Tancredi

January 2013

The paper investigates different solutions for handling of ionospheric delays in high accuracy long ...

Ionospheric path delay modelling for spacecraft formation flying

Yang, Y
Li, Y
Dempster, A
Rizos, C

January 2013

In addition to absolute orbit determination information, many current and future space missions requ...

Geometrical LEO Precise Orbit Determination (POD) with only sequential time differenced GPS SST carrier phase observations

Shabanloui, Akbar
Ilk, Karl Heinz

April 2007

High-low GPS LEO (Low Earth Orbiter) SST (Satellite to Satellite Tracking) observations play an imp...

Validation on flight data of a closed-loop approach for GPS-based relative navigation of LEO satellites

U. Tancredi
RENGA, ALFREDO
GRASSI, MICHELE

January 2013

This paper describes a carrier-phase differential GPS approach for real-time relative navigation of ...

A new approach for LEO receiver bias estimation and TEC calibration for LEO-GNSS paths

Hoque, Mohammed Mainul
Jakowski, Norbert
Berdermann, Jens

January 2016

Many Low Earth Orbiting (LEO) satellites have been/will be launched with Global Navigation Satellite...

Influence of the ionospheric model on DCB computation and added value of LEO satellites

Wautelet, Gilles
Lestarquit, Laurent
Loyer, Sylvain
Mercier, Flavien
Perosanz, Félix

April 2016

In order to compute inter-frequency Differential Code Biases (DCBs), the Geometry-Free combination o...

Ionospheric delays compensation for on-the-fly integer ambiguity resolution in long baseline LEO formations

U. Tancredi
A. Renga
M. Grassi

January 2014

This paper deals with the real-time onboard accurate relative positioning by carrier-phase different...

GPS Receiver and Satellite DCB Estimation using Ionospheric TEC

Byung-Kyu Choi
Sung-Ki Cho
Sang-Jeong Lee

June 2009

We estimated the receiver and satellite differential code bias (DCB) based on the ionospheric total ...

E-LETTER Earth Planets Space, 60, e25–e28, 2008 Efficient GPS receiver DCB estimation for ionosphere modeling using satellite-receiver geometry changes

Chang-ki Hong
Dorota A. Grejner-brzezinska
Jay Hyoun Kwon

November 2014

A new and efficient algorithm using the geometry conditions between satellite and tracking receivers...

Accurate ionospheric delay model for real-time GPS-based positioning of LEO satellites using horizontal VTEC gradient estimation

Renga, Alfredo
Causa, Flavia
Tancredi, Urbano
Grassi, Michele

January 2018

Ionospheric delays compensation is a mandatory step for precise absolute and relative positioning of...

Topside Ionospheric Tomography Exclusively Based on LEO POD GPS Carrier Phases: Application to Autonomous LEO DCB Estimation

Hernández-Pajares, Manuel
Olivares-Pulido, Germán
Hoque, M. Mainul
Prol, Fabricio S.
Yuan, Liangliang
Notarpietro, Riccardo
Graffigna, Victoria

January 2023

This paper presents a novel technique to estimate DCBs from GPS transmitters and receivers on-board ...

Topside ionospheric tomography exclusively based on LEO POD GPS carrier phases: Application to autonomous LEO DCB estimation

Hernández-Pajares, Manuel
Olivares-Pulido, Germán
Hoque, Mainul M.
Prol, Fabricio S.
Yuan, Liangliang
Notarpietro, Riccardo
Graffigna, Victoria

January 2023

This article belongs to the Special Issue New Insights in GNSS Remote Sensing for Ionosphere Monitor...

Topside ionospheric tomography exclusively based on LEO POD GPS carrier phases: application to autonomous LEO DCB estimation

Hernández Pajares, Manuel
Olivares Pulido, Germán
Hoque, Mainul
Prol, Fabricio dos Santos
Yuan, Liangliang
Notarpietro, Riccardo
Graffigna, Victoria

January 2023

This paper presents a novel technique to estimate DCBs from GPS transmitters and receivers on-board ...

A new method to estimate GPS satellite and receiver differential code biases using a network of LEO satellites

Yuan, L
Hoque, M Mainul
Jin, Shuanggen

January 2021

The differential code biases (DCBs) of the global positioning system (GPS) receiver onboard low-Eart...

Handling of ionospheric delays for Carrier Phase Differential GPS in LEO formation flying

Tancredi, Urbano

January 2013

The paper investigates different solutions for handling of ionospheric delays in high accuracy long ...

HANDLING OF IONOSPHERIC DELAYS FOR CARRIER PHASE DIFFERENTIAL GPS IN LEO FORMATION FLYING

RENGA, ALFREDO
GRASSI, MICHELE
U. Tancredi

January 2013

The paper investigates different solutions for handling of ionospheric delays in high accuracy long ...

Ionospheric path delay modelling for spacecraft formation flying

Yang, Y
Li, Y
Dempster, A
Rizos, C

January 2013

In addition to absolute orbit determination information, many current and future space missions requ...

Geometrical LEO Precise Orbit Determination (POD) with only sequential time differenced GPS SST carrier phase observations

Shabanloui, Akbar
Ilk, Karl Heinz

April 2007

High-low GPS LEO (Low Earth Orbiter) SST (Satellite to Satellite Tracking) observations play an imp...

Validation on flight data of a closed-loop approach for GPS-based relative navigation of LEO satellites

U. Tancredi
RENGA, ALFREDO
GRASSI, MICHELE

January 2013

This paper describes a carrier-phase differential GPS approach for real-time relative navigation of ...

A new approach for LEO receiver bias estimation and TEC calibration for LEO-GNSS paths

Hoque, Mohammed Mainul
Jakowski, Norbert
Berdermann, Jens

January 2016

Many Low Earth Orbiting (LEO) satellites have been/will be launched with Global Navigation Satellite...

Influence of the ionospheric model on DCB computation and added value of LEO satellites

Wautelet, Gilles
Lestarquit, Laurent
Loyer, Sylvain
Mercier, Flavien
Perosanz, Félix

April 2016

In order to compute inter-frequency Differential Code Biases (DCBs), the Geometry-Free combination o...

Ionospheric delays compensation for on-the-fly integer ambiguity resolution in long baseline LEO formations

U. Tancredi
A. Renga
M. Grassi

January 2014

This paper deals with the real-time onboard accurate relative positioning by carrier-phase different...

GPS Receiver and Satellite DCB Estimation using Ionospheric TEC

Byung-Kyu Choi
Sung-Ki Cho
Sang-Jeong Lee

June 2009

We estimated the receiver and satellite differential code bias (DCB) based on the ionospheric total ...

E-LETTER Earth Planets Space, 60, e25–e28, 2008 Efficient GPS receiver DCB estimation for ionosphere modeling using satellite-receiver geometry changes

Chang-ki Hong
Dorota A. Grejner-brzezinska
Jay Hyoun Kwon

November 2014

A new and efficient algorithm using the geometry conditions between satellite and tracking receivers...

Accurate ionospheric delay model for real-time GPS-based positioning of LEO satellites using horizontal VTEC gradient estimation

Renga, Alfredo
Causa, Flavia
Tancredi, Urbano
Grassi, Michele

January 2018

Ionospheric delays compensation is a mandatory step for precise absolute and relative positioning of...

Topside Ionospheric Tomography Exclusively Based on LEO POD GPS Carrier Phases: Application to Autonomous LEO DCB Estimation

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Topside Ionospheric Tomography Exclusively Based on LEO POD GPS Carrier Phases: Application to Autonomous LEO DCB Estimation

Abstract

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