Add to ORKGRecent development of the user-friendly software package “Co-registration of Optically Sensed Images and Correlation” (COSI-Corr), which allows for automatic and precise ortho-rectification, co-registration, and sub-pixel correlation of pushbroom satellite and aerial images, has enabled Earth’s surface dynamics to be accurately monitored using optical imagery [1]. This technique compares two images of the Earth’s surface that were acquired at different times, and estimates any potential pixel shifts between them with an accuracy typically better than 1/10 of the pixel size. Correlation of both satellite and aerial images has been successfully used to identify coseismic ground ruptures and quantify fault offsets during large earthquakes [2]...
Over the past few decades, remote sensing has emerged as a powerful tool for studying active faultin...
The rapidly growing field of remote sensing is beginning to supply massive quantities of high-resolu...
On August 17, 1999, a strong earthquake (Mw ≈ 7.4) occurred along the western sector of the North ...
Recent development of the user-friendly software package “Co-registration of Optically Sensed Images...
The increasing availability of high-quality optical satellite images should allow, in principle, con...
Despite the increasing availability of high-quality optical satellite images, continuous monitoring ...
International audienceImage correlation is one of the most efficient techniques to determine horizon...
GPS and satellite images are used for determining displacements resulting from natural disasters suc...
Système pour l'Observation de la Terre images are used to map ground displacements induced by earthq...
We describe and test a procedure to accurately co-register and correlate multi-temporal aerial image...
Near-field surface displacement measurements allow us to quantify the on- and off-fault proportion o...
We describe a method that allows for accurate inflight calibration of the interior orientation of an...
The state of seismic activity on Mars is currently unknown. On Earth, coseismic displacement has bee...
In this work is presented a new robust unwrapping-free phase correlation method, for retrieving the ...
Over the past few decades, remote sensing has emerged as a powerful tool for studying active faultin...
The rapidly growing field of remote sensing is beginning to supply massive quantities of high-resolu...
On August 17, 1999, a strong earthquake (Mw ≈ 7.4) occurred along the western sector of the North ...
Recent development of the user-friendly software package “Co-registration of Optically Sensed Images...
The increasing availability of high-quality optical satellite images should allow, in principle, con...
Despite the increasing availability of high-quality optical satellite images, continuous monitoring ...
International audienceImage correlation is one of the most efficient techniques to determine horizon...
GPS and satellite images are used for determining displacements resulting from natural disasters suc...
Système pour l'Observation de la Terre images are used to map ground displacements induced by earthq...
We describe and test a procedure to accurately co-register and correlate multi-temporal aerial image...
Near-field surface displacement measurements allow us to quantify the on- and off-fault proportion o...
We describe a method that allows for accurate inflight calibration of the interior orientation of an...
The state of seismic activity on Mars is currently unknown. On Earth, coseismic displacement has bee...
In this work is presented a new robust unwrapping-free phase correlation method, for retrieving the ...
Over the past few decades, remote sensing has emerged as a powerful tool for studying active faultin...
The rapidly growing field of remote sensing is beginning to supply massive quantities of high-resolu...
On August 17, 1999, a strong earthquake (Mw ≈ 7.4) occurred along the western sector of the North ...