Add to ORKGThis thesis focuses mainly on using the information present in the first echo returned from the seafloor, using a normal-incidence echosounder, to characterize or classify the seabed. This is done using a monostatic setup in a water-tank in the laboratory. Monostatic means that the same transducer is used both as source and receiver. Measurements were done on a copper reflector, sand surfaces of different grain sizes and a clay surface. Looking at the basic principles of scattering from surfaces, and doing measurements in a controlled laboratory environment, one wanted to look into the possibilities of characterizing the bottom
The objective of this investigation was to measure bottom loss in normal incident reflection of puls...
Analysis of seafloor backscatter collected from single and multi beam echosounders (SBES and MBES) h...
Seafloor characterization using multibeam echosounder (MBES) backscatter data is an active field of ...
This thesis focuses mainly on using the information present in the first echo returned from the seaf...
Features extracted from echosounder bottom returns are compared with the ground truth in a North Sea...
International audienceRemote sensing the seabed has become an indispensable issue for marine environ...
In the paper, the approach to seafloor characterisation is presented. The multibeam sonars, besides ...
Acoustical characterization of the sea-floor may be performed in different ways depending of the typ...
An algorithm for characterization of the seafloor by use of a parametric acoustic source has been de...
Simultaneous mid-water and seafloor classification enables the study of the relationship between sea...
Combination of multibeam backscatter and bathymetry: A method to characterize the seafloorA high res...
In the last two decades, the use of multibeam echosounders has been growing for seafloor mapping and...
Sub bottom profilers are commonly used as mapping tool for the seafloor and sub-bottom structure in ...
The present study sought to develop a seabed map of the region of the Pelotas Basin using acoustic m...
<p>Seafloor characterization using multibeam echosounder (MBES) backscatter data is an active field ...
The objective of this investigation was to measure bottom loss in normal incident reflection of puls...
Analysis of seafloor backscatter collected from single and multi beam echosounders (SBES and MBES) h...
Seafloor characterization using multibeam echosounder (MBES) backscatter data is an active field of ...
This thesis focuses mainly on using the information present in the first echo returned from the seaf...
Features extracted from echosounder bottom returns are compared with the ground truth in a North Sea...
International audienceRemote sensing the seabed has become an indispensable issue for marine environ...
In the paper, the approach to seafloor characterisation is presented. The multibeam sonars, besides ...
Acoustical characterization of the sea-floor may be performed in different ways depending of the typ...
An algorithm for characterization of the seafloor by use of a parametric acoustic source has been de...
Simultaneous mid-water and seafloor classification enables the study of the relationship between sea...
Combination of multibeam backscatter and bathymetry: A method to characterize the seafloorA high res...
In the last two decades, the use of multibeam echosounders has been growing for seafloor mapping and...
Sub bottom profilers are commonly used as mapping tool for the seafloor and sub-bottom structure in ...
The present study sought to develop a seabed map of the region of the Pelotas Basin using acoustic m...
<p>Seafloor characterization using multibeam echosounder (MBES) backscatter data is an active field ...
The objective of this investigation was to measure bottom loss in normal incident reflection of puls...
Analysis of seafloor backscatter collected from single and multi beam echosounders (SBES and MBES) h...
Seafloor characterization using multibeam echosounder (MBES) backscatter data is an active field of ...