Radar Installation

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The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform

Friedwart Ziemer - One of the best experts on this subject based on the ideXlab platform.

  • determination of bathymetric and current maps by the method disc based on the analysis of nautical x band Radar image sequences of the sea surface november 2007
    IEEE Transactions on Geoscience and Remote Sensing, 2008
    Co-Authors: C M Senet, J Seemann, S Flampouris, Friedwart Ziemer
    Abstract:

    Morphodynamic processes in coastal areas are affected by tidal currents and sea state. The continuous observation of near coastal areas is important in order to monitor dangerous current-regime and bathymetry changes. Therefore, there is an urgent need for remote sensing techniques delivering the important hydrographic parameters with a high spatial resolution. Dispersive surface classificator (DiSC) is a newly developed method based on the analysis of nautical X-band Radar image sequences of sea surface waves to determine spatial maps of hydrographic parameters, e.g., spatial maps of the bathymetry and the ocean current field. The method DiSC is described and is illustrated by the presentation of results based on a dataset acquired with a ground-based X-band Radar Installation mounted on the Island of Sylt in the German Bight. The calculated bathymetric maps are verified by multibeam echo sounder observations.

C M Senet - One of the best experts on this subject based on the ideXlab platform.

  • determination of bathymetric and current maps by the method disc based on the analysis of nautical x band Radar image sequences of the sea surface november 2007
    IEEE Transactions on Geoscience and Remote Sensing, 2008
    Co-Authors: C M Senet, J Seemann, S Flampouris, Friedwart Ziemer
    Abstract:

    Morphodynamic processes in coastal areas are affected by tidal currents and sea state. The continuous observation of near coastal areas is important in order to monitor dangerous current-regime and bathymetry changes. Therefore, there is an urgent need for remote sensing techniques delivering the important hydrographic parameters with a high spatial resolution. Dispersive surface classificator (DiSC) is a newly developed method based on the analysis of nautical X-band Radar image sequences of sea surface waves to determine spatial maps of hydrographic parameters, e.g., spatial maps of the bathymetry and the ocean current field. The method DiSC is described and is illustrated by the presentation of results based on a dataset acquired with a ground-based X-band Radar Installation mounted on the Island of Sylt in the German Bight. The calculated bathymetric maps are verified by multibeam echo sounder observations.

S Flampouris - One of the best experts on this subject based on the ideXlab platform.

  • determination of bathymetric and current maps by the method disc based on the analysis of nautical x band Radar image sequences of the sea surface november 2007
    IEEE Transactions on Geoscience and Remote Sensing, 2008
    Co-Authors: C M Senet, J Seemann, S Flampouris, Friedwart Ziemer
    Abstract:

    Morphodynamic processes in coastal areas are affected by tidal currents and sea state. The continuous observation of near coastal areas is important in order to monitor dangerous current-regime and bathymetry changes. Therefore, there is an urgent need for remote sensing techniques delivering the important hydrographic parameters with a high spatial resolution. Dispersive surface classificator (DiSC) is a newly developed method based on the analysis of nautical X-band Radar image sequences of sea surface waves to determine spatial maps of hydrographic parameters, e.g., spatial maps of the bathymetry and the ocean current field. The method DiSC is described and is illustrated by the presentation of results based on a dataset acquired with a ground-based X-band Radar Installation mounted on the Island of Sylt in the German Bight. The calculated bathymetric maps are verified by multibeam echo sounder observations.

J Seemann - One of the best experts on this subject based on the ideXlab platform.

  • determination of bathymetric and current maps by the method disc based on the analysis of nautical x band Radar image sequences of the sea surface november 2007
    IEEE Transactions on Geoscience and Remote Sensing, 2008
    Co-Authors: C M Senet, J Seemann, S Flampouris, Friedwart Ziemer
    Abstract:

    Morphodynamic processes in coastal areas are affected by tidal currents and sea state. The continuous observation of near coastal areas is important in order to monitor dangerous current-regime and bathymetry changes. Therefore, there is an urgent need for remote sensing techniques delivering the important hydrographic parameters with a high spatial resolution. Dispersive surface classificator (DiSC) is a newly developed method based on the analysis of nautical X-band Radar image sequences of sea surface waves to determine spatial maps of hydrographic parameters, e.g., spatial maps of the bathymetry and the ocean current field. The method DiSC is described and is illustrated by the presentation of results based on a dataset acquired with a ground-based X-band Radar Installation mounted on the Island of Sylt in the German Bight. The calculated bathymetric maps are verified by multibeam echo sounder observations.

Stephan Harrison - One of the best experts on this subject based on the ideXlab platform.

  • second world war bomb craters and the archaeology of allied air attacks in the forests of the normandie maine national park nw france
    Journal of Field Archaeology, 2016
    Co-Authors: David Capps Tunwell, David G Passmore, Stephan Harrison
    Abstract:

    Well-preserved bomb craters in the forests of central Normandy, NW France, constitute archaeological legacies of combat inland from the D-Day beachheads that greatly extend the inventory of Second World War conflict landscapes in northwest Europe. Field survey and analysis of German and Allied documents demonstrates that bombscapes in the Foret domaniale des Andaines and Foret domaniale d'Ecouves reflect US Ninth Army Air Force attacks on a German fuel depot and Radar Installation, respectively, during June-August, 1944. One hundred and thirty-six craters are mapped, described and linked to specific air raids, bomb types and, for one raid on the 13th June, six specific participating aircraft and aircrews. These landscapes echo the impact of widespread tactical bombing against targets close to civilian population centers, and in some cases employing civilian and PoW labor. They are therefore well-placed to contribute to wider heritage narratives around the non-combatant experience of aerial warfare in WWII.