Add to ORKGBathymetry is traditionally acquired using singlebeam or multibeam echosounders. This method produces accurate depth measurements along transects but is constrained by operating cost and an inability to survey in very shallow waters. Airborne Lidar is able to produce accurate bathymetric information over clear waters at depths up to 70m, but can be costly and is limited by a relatively coarse bathymetric sampling interval. Experience in Irish waters has resulted in very poor seabed detection along the east coast and limited penetration on the west coast. An efficient and cost-effective alternative is satellitederived bathymetry
Acoustic and electromagnetic hydrographic surveys produce highly-accurate bathymetric data that can ...
During the last years, many studies related to Satellite-Derived Bathymetry (SDB) emphasize the pote...
The use of passive satellite sensor data in shallow waters is complicated by the combined atmospheri...
Bathymetry is traditionally acquired using singlebeam or multibeam echosounders. This method produce...
In maritime areas where safety of navigation is an essential issue, such as ports, harbours and wate...
The coastal shallow water zone can be a challenging and costly environment in which to acquire bath...
Selecting a representative optical deep-water area is crucial for accurate satellite-derived bathyme...
ABSTRACT Two advanced survey systems for hydrographic surveying are multi-beam echsounder (MBES) and...
Covering over 70 % of the Earth’s surface, the undersea landscape or bathymetry has been revealed on...
ARGANS has years of experience in analysing the factors limiting light transmission in coastal envir...
penetration of the water column. The resolution of bathymetric mapping and achievable horizontal and...
Research on the physical, ecological and environmental processes in the coastal zone often rely on t...
This study presents an assessment of a model inversion approach to derive shallow water bathymetry i...
Conventional bathymetric surveying is a costly and time consuming business. Even today many areas of...
Precise and accurate bathymetric measurements are conventionally acquired by means of ship-based aco...
Acoustic and electromagnetic hydrographic surveys produce highly-accurate bathymetric data that can ...
During the last years, many studies related to Satellite-Derived Bathymetry (SDB) emphasize the pote...
The use of passive satellite sensor data in shallow waters is complicated by the combined atmospheri...
Bathymetry is traditionally acquired using singlebeam or multibeam echosounders. This method produce...
In maritime areas where safety of navigation is an essential issue, such as ports, harbours and wate...
The coastal shallow water zone can be a challenging and costly environment in which to acquire bath...
Selecting a representative optical deep-water area is crucial for accurate satellite-derived bathyme...
ABSTRACT Two advanced survey systems for hydrographic surveying are multi-beam echsounder (MBES) and...
Covering over 70 % of the Earth’s surface, the undersea landscape or bathymetry has been revealed on...
ARGANS has years of experience in analysing the factors limiting light transmission in coastal envir...
penetration of the water column. The resolution of bathymetric mapping and achievable horizontal and...
Research on the physical, ecological and environmental processes in the coastal zone often rely on t...
This study presents an assessment of a model inversion approach to derive shallow water bathymetry i...
Conventional bathymetric surveying is a costly and time consuming business. Even today many areas of...
Precise and accurate bathymetric measurements are conventionally acquired by means of ship-based aco...
Acoustic and electromagnetic hydrographic surveys produce highly-accurate bathymetric data that can ...
During the last years, many studies related to Satellite-Derived Bathymetry (SDB) emphasize the pote...
The use of passive satellite sensor data in shallow waters is complicated by the combined atmospheri...