In this work we demonstrate how onboard de-noise processing can improve survey efficiency by reducing the need for data re-acquisition. This is illustrated through a number of de-noising examples showing seismic interference, swell, strumming, electrical leakage (cross-feed), snapping shrimp and feeding fish, respectively. We also present a novel approach for dealing with cross-feed and severe strum/tug noise during acquisition
Most seismic processing algorithms generally consider the sea surface as a flat reflector. However, ...
Shooting in an overlapping fashion is called blended or simultaneous acquisition. This can make acqu...
Blended acquisition, or simultaneous source acquisition, is a relatively new seismic acquisition des...
A new concept for the acquisition of point receiver towed streamer data is introduced. Recording of ...
In marine seismic acquisitions, a major deteriorating effect on resolution is caused by ghost re- fl...
Marine seismic interference noise occurs when energy from nearby marine seismic source vessels is re...
Marine seismic acquisition is troubled with several factors of noise that can deteriorate seismic da...
This study investigates improving high resolution single channel marine reflection seismic survey by...
Marine seismic surveys use intense (eg >= 230 decibel [dB] root mean square [RMS]) sound impulses...
In marine seismic acquisition, the free surface generates seismic events in our recorded data that a...
A marine seismic method based on continuous source and receiver wavefields has been developed. The m...
Ocean-bottom seismometers (OBSs) allow us to extend seismological research to the oceans to constrai...
Ocean-bottom seismometers (OBSs) allow us to extend seismo-logical research to the oceans to constra...
During seismic acquisition, reflected waves from the subsurface are recorded by sensors in seismic c...
Since 2010, TNO has conducted a number of experiments on passive diver detection in Dutch waters. We...
Most seismic processing algorithms generally consider the sea surface as a flat reflector. However, ...
Shooting in an overlapping fashion is called blended or simultaneous acquisition. This can make acqu...
Blended acquisition, or simultaneous source acquisition, is a relatively new seismic acquisition des...
A new concept for the acquisition of point receiver towed streamer data is introduced. Recording of ...
In marine seismic acquisitions, a major deteriorating effect on resolution is caused by ghost re- fl...
Marine seismic interference noise occurs when energy from nearby marine seismic source vessels is re...
Marine seismic acquisition is troubled with several factors of noise that can deteriorate seismic da...
This study investigates improving high resolution single channel marine reflection seismic survey by...
Marine seismic surveys use intense (eg >= 230 decibel [dB] root mean square [RMS]) sound impulses...
In marine seismic acquisition, the free surface generates seismic events in our recorded data that a...
A marine seismic method based on continuous source and receiver wavefields has been developed. The m...
Ocean-bottom seismometers (OBSs) allow us to extend seismological research to the oceans to constrai...
Ocean-bottom seismometers (OBSs) allow us to extend seismo-logical research to the oceans to constra...
During seismic acquisition, reflected waves from the subsurface are recorded by sensors in seismic c...
Since 2010, TNO has conducted a number of experiments on passive diver detection in Dutch waters. We...
Most seismic processing algorithms generally consider the sea surface as a flat reflector. However, ...
Shooting in an overlapping fashion is called blended or simultaneous acquisition. This can make acqu...
Blended acquisition, or simultaneous source acquisition, is a relatively new seismic acquisition des...