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An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1: numerical investigations

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An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1: numerical investigations. / Ilic, Suzana; Chadwick, Andrew; Helm-Petersen, Jacob.
In: Journal of Hydraulic Research, Vol. 38, No. 4, 2000, p. 243-252.

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Harvard

Ilic, S, Chadwick, A & Helm-Petersen, J 2000, 'An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1: numerical investigations', Journal of Hydraulic Research, vol. 38, no. 4, pp. 243-252. https://doi.org/10.1080/00221680009498323

APA

Ilic, S., Chadwick, A., & Helm-Petersen, J. (2000). An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1: numerical investigations. Journal of Hydraulic Research, 38(4), 243-252. https://doi.org/10.1080/00221680009498323

Vancouver

Ilic S, Chadwick A, Helm-Petersen J. An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1: numerical investigations. Journal of Hydraulic Research. 2000;38(4):243-252. doi: 10.1080/00221680009498323

Author

Ilic, Suzana ; Chadwick, Andrew ; Helm-Petersen, Jacob. / An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1 : numerical investigations. In: Journal of Hydraulic Research. 2000 ; Vol. 38, No. 4. pp. 243-252.

Bibtex

@article{75807c0a8ab94f1886db774fb084bdcd,
title = "An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1: numerical investigations",
abstract = "Recent studies of advanced directional analysis techniques have mainly centred on incident wave fields. In the study of coastal structures, however, partially reflective wave fields are commonly present. In the near structure field, phase locked methods can be successfully applied. In the far field, non-phased locked methods are more appropriate. In this paper, the accuracy of two non-phased locked methods of directional analysis, the maximum likelihood method (MLM) and the Bayesian directional method (BDM) have been quantitatively evaluated using numerical simulations for the case of multidirectional waves with partial reflections. It is shown that the results are influenced by the ratio of distance from the reflector (L) to the length of the time series (S) used in the spectral analysis. Both methods are found to be capable of determining the incident and reflective wave fields when US > 0.5. The BBM provides, in most cases, more accurate estimates of incident significant wave height, average reflection coefficients and directional spreading.",
keywords = "SPECTRA",
author = "Suzana Ilic and Andrew Chadwick and Jacob Helm-Petersen",
year = "2000",
doi = "10.1080/00221680009498323",
language = "English",
volume = "38",
pages = "243--252",
journal = "Journal of Hydraulic Research",
issn = "0022-1686",
publisher = "International Association of Hydraulic Engineering Research",
number = "4",

}

RIS

TY - JOUR

T1 - An evaluation of directional analysis techniques for multidirectional, partially reflected waves Part 1

T2 - numerical investigations

AU - Ilic, Suzana

AU - Chadwick, Andrew

AU - Helm-Petersen, Jacob

PY - 2000

Y1 - 2000

N2 - Recent studies of advanced directional analysis techniques have mainly centred on incident wave fields. In the study of coastal structures, however, partially reflective wave fields are commonly present. In the near structure field, phase locked methods can be successfully applied. In the far field, non-phased locked methods are more appropriate. In this paper, the accuracy of two non-phased locked methods of directional analysis, the maximum likelihood method (MLM) and the Bayesian directional method (BDM) have been quantitatively evaluated using numerical simulations for the case of multidirectional waves with partial reflections. It is shown that the results are influenced by the ratio of distance from the reflector (L) to the length of the time series (S) used in the spectral analysis. Both methods are found to be capable of determining the incident and reflective wave fields when US > 0.5. The BBM provides, in most cases, more accurate estimates of incident significant wave height, average reflection coefficients and directional spreading.

AB - Recent studies of advanced directional analysis techniques have mainly centred on incident wave fields. In the study of coastal structures, however, partially reflective wave fields are commonly present. In the near structure field, phase locked methods can be successfully applied. In the far field, non-phased locked methods are more appropriate. In this paper, the accuracy of two non-phased locked methods of directional analysis, the maximum likelihood method (MLM) and the Bayesian directional method (BDM) have been quantitatively evaluated using numerical simulations for the case of multidirectional waves with partial reflections. It is shown that the results are influenced by the ratio of distance from the reflector (L) to the length of the time series (S) used in the spectral analysis. Both methods are found to be capable of determining the incident and reflective wave fields when US > 0.5. The BBM provides, in most cases, more accurate estimates of incident significant wave height, average reflection coefficients and directional spreading.

KW - SPECTRA

U2 - 10.1080/00221680009498323

DO - 10.1080/00221680009498323

M3 - Journal article

VL - 38

SP - 243

EP - 252

JO - Journal of Hydraulic Research

JF - Journal of Hydraulic Research

SN - 0022-1686

IS - 4

ER -