Review of works combining GNSS and InSAR in Europe
The Global Navigation Satellite System (GNSS) and Synthetic Aperture Radar Interferometry
(InSAR) can be combined to achieve different goals, owing to their main principles. Both …
(InSAR) can be combined to achieve different goals, owing to their main principles. Both …
A high-precision ZTD interpolation method considering large area and height differences
Q Zhao, W Wang, Z Li, Z Du, P Yang, W Yao, Y Yao - GPS Solutions, 2024 - Springer
The existing methods for retrieving high-spatial resolution zenith tropospheric delay (ZTD),
such as interpolation and fitting methods, are not suitable for large areas and large height …
such as interpolation and fitting methods, are not suitable for large areas and large height …
Real-time wide-area precise tropospheric corrections (WAPTCs) jointly using GNSS and NWP forecasts for China
H Zhang, Y Yuan, W Li - Journal of Geodesy, 2022 - Springer
Real-time precise tropospheric corrections are essential for global navigation satellite
system (GNSS) positioning with centimetre-level precision. This study presents a new …
system (GNSS) positioning with centimetre-level precision. This study presents a new …
Improving the vertical modeling of tropospheric delay
J Wang, K Balidakis, F Zus, X Chang… - Geophysical …, 2022 - Wiley Online Library
Accurate tropospheric delays from Numerical Weather Models (NWM) are an important input
to space geodetic techniques, especially for precise real‐time Global Navigation Satellite …
to space geodetic techniques, especially for precise real‐time Global Navigation Satellite …
[HTML][HTML] MPG-NET: A low-cost, multi-purpose GNSS co-location station network for environmental monitoring
M Aichinger-Rosenberger, A Wolf, C Senn… - Measurement, 2023 - Elsevier
Abstract Global Navigation Satellite Systems (GNSS) are very versatile sensors, which can
be used for a variety of commercial and scientific applications. This holds especially true for …
be used for a variety of commercial and scientific applications. This holds especially true for …
Tropospheric and range biases in Satellite Laser Ranging
M Drożdżewski, K Sośnica - Journal of Geodesy, 2021 - Springer
Abstract The Satellite Laser Ranging (SLR) technique provides very accurate distance
measurements to artificial Earth satellites. SLR is employed for the realization of the origin …
measurements to artificial Earth satellites. SLR is employed for the realization of the origin …
[HTML][HTML] Improving tropospheric corrections on large-scale Sentinel-1 interferograms using a machine learning approach for integration with GNSS-derived zenith total …
R Shamshiri, M Motagh, H Nahavandchi… - Remote Sensing of …, 2020 - Elsevier
Sentinel-1 mission with its wide spatial coverage (250 km), short revisit time (6 days), and
rapid data dissemination opened new perspectives for large-scale interferometric synthetic …
rapid data dissemination opened new perspectives for large-scale interferometric synthetic …
Analysis of the performance of closely spaced low-cost multi-GNSS receivers
C Xue, P Psimoulis, Q Zhang, X Meng - Applied Geomatics, 2021 - Springer
The recent advances of low-cost GNSS receivers have broadened their application field not
only in positioning and navigation, but also in deformation monitoring of civil engineering …
only in positioning and navigation, but also in deformation monitoring of civil engineering …
[HTML][HTML] A Cloud-native Approach for Processing of Crowdsourced GNSS Observations and Machine Learning at Scale: A Case Study from the CAMALIOT Project
The era of modern smartphones, running on Android version 7.0 and higher, facilitates
nowadays acquisition of raw dual-frequency multi-constellation GNSS observations. This …
nowadays acquisition of raw dual-frequency multi-constellation GNSS observations. This …
Regional/Single Station Zenith Tropospheric Delay Combination Prediction Model Based on Radial Basis Function Neural Network and Improved Long Short-Term …
X Yang, Y Li, X Yu, H Tan, J Yuan, M Zhu - Atmosphere, 2023 - mdpi.com
Atmospheric water vapor is an essential source of information that predicts global climate
change, rainfall, and disaster-natured weather. It is also a vital source of error for Earth …
change, rainfall, and disaster-natured weather. It is also a vital source of error for Earth …