Add to ORKGThe SHOALS system uses lidar technology to remotely measure bathymetry and topography in the coastal zone. During five years of survey operations, SHOALS has demonstrated airborne lidar bathymetry’s benefits to the coastal community by providing a cost-effective tool for comprehensive assessment of coastal projects. This paper discusses the application of lidar technology for water-depth measurement, specifically outlining the SHOALS system and introducing a SHOALS surve
Traditional uses of near-shore bathymetry and shoreline data have been to provide the tools necessar...
Lidar hydrography has been in use world-wide since the mid-1980s, with current systems proving to ha...
Lidar is an optical remote sensing technology which uses the backscattered light to create informati...
Airborne lidar bathymetry (ALB) survey planning differs from one coastal zone to another because env...
Although Lidar (light detection and ranging) technology has a variety of applications, such as nauti...
Accurate and consistent shoreline determinations play a major role in coastal management and are nec...
The determination of the shoreline is the basis for defining boundaries between private, state, and ...
Accurate and consistent shoreline determinations play a major role in nautical charting and coastal ...
Airborne light detection and ranging (LIDAR) bathymetry (ALB) is an efficient remote-sensing techniq...
The environmental factors that determine the ability of airborne lidar bathymetry (ALB) to detect th...
Results from a recent study of the performance of ALB in the coastal waters of New Hampshire-Maine i...
Results from a recent study of the performance of ALB in the coastal waters of New Hampshire-Maine i...
Mapping shallow-water bathymetry with acoustic techniques is complicated and expensive. The environm...
LIDAR (Light Detecting and Ranging) is an appealing technology for subaqueous and terrestrial soil s...
Since the shorelines are important geographical boundaries, monitoring shoreline change plays an imp...
Traditional uses of near-shore bathymetry and shoreline data have been to provide the tools necessar...
Lidar hydrography has been in use world-wide since the mid-1980s, with current systems proving to ha...
Lidar is an optical remote sensing technology which uses the backscattered light to create informati...
Airborne lidar bathymetry (ALB) survey planning differs from one coastal zone to another because env...
Although Lidar (light detection and ranging) technology has a variety of applications, such as nauti...
Accurate and consistent shoreline determinations play a major role in coastal management and are nec...
The determination of the shoreline is the basis for defining boundaries between private, state, and ...
Accurate and consistent shoreline determinations play a major role in nautical charting and coastal ...
Airborne light detection and ranging (LIDAR) bathymetry (ALB) is an efficient remote-sensing techniq...
The environmental factors that determine the ability of airborne lidar bathymetry (ALB) to detect th...
Results from a recent study of the performance of ALB in the coastal waters of New Hampshire-Maine i...
Results from a recent study of the performance of ALB in the coastal waters of New Hampshire-Maine i...
Mapping shallow-water bathymetry with acoustic techniques is complicated and expensive. The environm...
LIDAR (Light Detecting and Ranging) is an appealing technology for subaqueous and terrestrial soil s...
Since the shorelines are important geographical boundaries, monitoring shoreline change plays an imp...
Traditional uses of near-shore bathymetry and shoreline data have been to provide the tools necessar...
Lidar hydrography has been in use world-wide since the mid-1980s, with current systems proving to ha...
Lidar is an optical remote sensing technology which uses the backscattered light to create informati...