Difference between revisions of "Testpage1"
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Dronkers J (talk | contribs) |
Dronkers J (talk | contribs) |
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| − | ==Satellite remote sensing== | + | ===Satellite remote sensing=== |
:[[Light fields and optics in coastal waters]] | :[[Light fields and optics in coastal waters]] | ||
:[[Optical remote sensing]] | :[[Optical remote sensing]] | ||
| − | |||
:[[Satellite-derived nearshore bathymetry]] | :[[Satellite-derived nearshore bathymetry]] | ||
:[[Oil spill monitoring]] | :[[Oil spill monitoring]] | ||
| − | |||
| − | |||
:[[Use of Lidar for coastal habitat mapping]] | :[[Use of Lidar for coastal habitat mapping]] | ||
| − | |||
:[[HyMap: Hyperspectral seafloor mapping and direct bathymetry calculation in littoral zones]] | :[[HyMap: Hyperspectral seafloor mapping and direct bathymetry calculation in littoral zones]] | ||
:[[Plankton remote sensing]] | :[[Plankton remote sensing]] | ||
| Line 14: | Line 10: | ||
:[[The Baltic Algae Watch System - a remote sensing application for monitoring cyanobacterial blooms in the Baltic Sea]] | :[[The Baltic Algae Watch System - a remote sensing application for monitoring cyanobacterial blooms in the Baltic Sea]] | ||
:[[Bathymetry from remote sensing wave propagation]] | :[[Bathymetry from remote sensing wave propagation]] | ||
| − | |||
| − | |||
| − | |||
:[[Use of aerial photographs for shoreline position and mapping applications]] | :[[Use of aerial photographs for shoreline position and mapping applications]] | ||
:[[SeaWiFS]] | :[[SeaWiFS]] | ||
| Line 23: | Line 16: | ||
:[[Tidal flats from space]] | :[[Tidal flats from space]] | ||
:[[Space geodetic techniques for coastal zone monitoring]] | :[[Space geodetic techniques for coastal zone monitoring]] | ||
| − | |||
:[[Determining coastal water constituents from space]] | :[[Determining coastal water constituents from space]] | ||
| − | |||
| − | |||
:[[Detecting the unknown - novelty detection of exceptional water reflectance spectra]] | :[[Detecting the unknown - novelty detection of exceptional water reflectance spectra]] | ||
:[[The HIMOM and OFEW approaches to monitoring intertidal flats]] | :[[The HIMOM and OFEW approaches to monitoring intertidal flats]] | ||
| − | :[[ | + | |
| + | ===Radar remote sensing=== | ||
| + | :[[Waves and currents by X-band radar]] | ||
| + | :[[Bathymetry German Bight from X-band radar]] | ||
:[[Measuring current fields in the German Bight by radar techniques]] | :[[Measuring current fields in the German Bight by radar techniques]] | ||
:[[Application of radar hydrography in the German Wadden Sea]] | :[[Application of radar hydrography in the German Wadden Sea]] | ||
| + | :[[WiRAR - A marine radar wind sensor]] | ||
| + | :[[WiSAR - Wind retrieval from synthetic aperture radar]] | ||
| + | |||
| + | ===Under water remote sensing=== | ||
| + | :[[General principles of optical and acoustical instruments]] | ||
| + | :[[Monitoring coastal morphodynamics using high-precision multibeam technology]] | ||
| + | :[[Optical Laser diffraction instruments (LISST)]] | ||
| + | :[[Optical backscatter point sensor (OBS)]] | ||
| + | :[[Instruments and sensors to measure environmental parameters]] | ||
| + | :[[Acoustic monitoring of marine mammals]] | ||
| + | :[[Acoustic point sensors (ASTM, UHCM, ADV)]] | ||
| + | :[[Acoustic backscatter profiling sensors (ABS)]] | ||
| + | :[[Currents and turbulence by acoustic methods]] | ||
| + | :[[Acoustic kelp bed mapping in shallow rocky coasts - case study Helgoland (North Sea)]] | ||
| + | :[[Instruments for bed level detection]] | ||
| + | :[[Measuring instruments for fluid velocity, pressure and wave height]] | ||
| + | |||
| + | ===Video camera=== | ||
| + | :[[Argus video monitoring system]] | ||
| + | :[[Argus video]] | ||
| + | :[[Underwater video systems]] | ||
| + | :[[Video technology]] | ||
| + | :[[Application and use of underwater video]] | ||
| + | :[[Argus applications]] | ||
Revision as of 12:52, 12 February 2024
Contents
Satellite remote sensing
- Light fields and optics in coastal waters
- Optical remote sensing
- Satellite-derived nearshore bathymetry
- Oil spill monitoring
- Use of Lidar for coastal habitat mapping
- HyMap: Hyperspectral seafloor mapping and direct bathymetry calculation in littoral zones
- Plankton remote sensing
- Remote sensing of zooplankton
- The Baltic Algae Watch System - a remote sensing application for monitoring cyanobacterial blooms in the Baltic Sea
- Bathymetry from remote sensing wave propagation
- Use of aerial photographs for shoreline position and mapping applications
- SeaWiFS
- MODIS
- MERIS
- Tidal flats from space
- Space geodetic techniques for coastal zone monitoring
- Determining coastal water constituents from space
- Detecting the unknown - novelty detection of exceptional water reflectance spectra
- The HIMOM and OFEW approaches to monitoring intertidal flats
Radar remote sensing
- Waves and currents by X-band radar
- Bathymetry German Bight from X-band radar
- Measuring current fields in the German Bight by radar techniques
- Application of radar hydrography in the German Wadden Sea
- WiRAR - A marine radar wind sensor
- WiSAR - Wind retrieval from synthetic aperture radar
Under water remote sensing
- General principles of optical and acoustical instruments
- Monitoring coastal morphodynamics using high-precision multibeam technology
- Optical Laser diffraction instruments (LISST)
- Optical backscatter point sensor (OBS)
- Instruments and sensors to measure environmental parameters
- Acoustic monitoring of marine mammals
- Acoustic point sensors (ASTM, UHCM, ADV)
- Acoustic backscatter profiling sensors (ABS)
- Currents and turbulence by acoustic methods
- Acoustic kelp bed mapping in shallow rocky coasts - case study Helgoland (North Sea)
- Instruments for bed level detection
- Measuring instruments for fluid velocity, pressure and wave height
