WAVESCAN - Automatisierte Erfassung und Modellierung von Brandungszonen auf Basis digitaler Bildsequenzen

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Stefan Schimmels
  • Folke Santel
  • Werner Zielke
  • Christian Heipke

Organisationseinheiten

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Details

Titel in ÜbersetzungWAVESCAN - Automated recording and modelling of surf zones on the basis of digital image sequences
OriginalspracheDeutsch
Seiten (von - bis)183-218
Seitenumfang36
FachzeitschriftKuste
Ausgabenummer71
PublikationsstatusVeröffentlicht - 2006

Abstract

The calibration and validation of highly developed numerical models for the calculation of wave kinematics inside the surf zone is a difficult task. With photogrammetric techniques it is possible to cover a large area and obtain digital water surface models with high resolution in space and time. These surface models are very well suited to provide boundary conditions for a numerical model of wave propagation and can also serve as a reference for the numerical simulation everywhere inside the area of analysis. This paper describes a photogrammetric method developed over the last years that derives digital surface models from stereoscopic image sequences and compares numerical simulations with a Boussinesq model based on conventional measurements and photogrammetric data.

Schlagwörter

    Boussinesq model, Image matching, Photogrammetry, Surf zone, Validation, Video sequences, Wave breaking, Wave runup

ASJC Scopus Sachgebiete

Zitieren

WAVESCAN - Automatisierte Erfassung und Modellierung von Brandungszonen auf Basis digitaler Bildsequenzen. / Schimmels, Stefan; Santel, Folke; Zielke, Werner et al.
in: Kuste, Nr. 71, 2006, S. 183-218.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Schimmels S, Santel F, Zielke W, Heipke C. WAVESCAN - Automatisierte Erfassung und Modellierung von Brandungszonen auf Basis digitaler Bildsequenzen. Kuste. 2006;(71):183-218.
Schimmels, Stefan ; Santel, Folke ; Zielke, Werner et al. / WAVESCAN - Automatisierte Erfassung und Modellierung von Brandungszonen auf Basis digitaler Bildsequenzen. in: Kuste. 2006 ; Nr. 71. S. 183-218.
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abstract = "The calibration and validation of highly developed numerical models for the calculation of wave kinematics inside the surf zone is a difficult task. With photogrammetric techniques it is possible to cover a large area and obtain digital water surface models with high resolution in space and time. These surface models are very well suited to provide boundary conditions for a numerical model of wave propagation and can also serve as a reference for the numerical simulation everywhere inside the area of analysis. This paper describes a photogrammetric method developed over the last years that derives digital surface models from stereoscopic image sequences and compares numerical simulations with a Boussinesq model based on conventional measurements and photogrammetric data.",
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AU - Schimmels, Stefan

AU - Santel, Folke

AU - Zielke, Werner

AU - Heipke, Christian

N1 - Funding Information: Die Autoren danken dem Bundesministeriums für Bildung und Forschung (BMBF) und dem Kuratorium für Forschung im Küsteningenieurwesen (KFKI) für die Finanzierung unter dem Kennzeichen 03KIS026 sowie der Forschungsstelle Küste und der Betriebsstelle Norden des Niedersächsischen Landesbetriebes für Wasserwirtschaft und Küsten- und Naturschutz für ihre tatkräftige Unterstützung. Herrn PD Dr.-Ing. Wilfried Liner gebührt unser herzlicher Dank für seine Hilfe bei der Implementierung des Bildzuordnungsalgorithmus in das Softwarepaket LISA FOTO.

PY - 2006

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N2 - The calibration and validation of highly developed numerical models for the calculation of wave kinematics inside the surf zone is a difficult task. With photogrammetric techniques it is possible to cover a large area and obtain digital water surface models with high resolution in space and time. These surface models are very well suited to provide boundary conditions for a numerical model of wave propagation and can also serve as a reference for the numerical simulation everywhere inside the area of analysis. This paper describes a photogrammetric method developed over the last years that derives digital surface models from stereoscopic image sequences and compares numerical simulations with a Boussinesq model based on conventional measurements and photogrammetric data.

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KW - Wave runup

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