Idioma:

Multiscale analysis of hydrologic time series data using the Hilbert-Huang transform

Rudi, J ; Pabel, R ; Jager, G ; Koch, R ; Kunoth, A ; Bogena, H

Vadose zone journal, 2010-11, Vol.9 (4), p.925-942 [Revista revisada por pares]

Madison: Soil Science Society of America

Texto completo disponible

Citas Citado por

Acciones

Título:
Multiscale analysis of hydrologic time series data using the Hilbert-Huang transform
Autor: Rudi, J ; Pabel, R ; Jager, G ; Koch, R ; Kunoth, A ; Bogena, H
Materias: Central Europe ; discharge ; diurnal variations ; drainage basins ; Erkensruhr Germany ; Europe ; Germany ; Hilbert-Huang transformations ; Hydrogeology ; hydrologic cycle ; hydrology ; North Rhine-Westphalia Germany ; Rhenish Schiefergebirge ; rivers and streams ; Rollesbroich Germany ; scale factor ; simulation ; time domain analysis ; western Germany
Es parte de: Vadose zone journal, 2010-11, Vol.9 (4), p.925-942
Notas: All rights reserved. No part of this periodical may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or any information storage and retrieval system, without permission in writing from the publisher.
For analyzing hydrological time series data we employ the technique recently developed called the Hilbert‐Huang Transform (HHT). We provide a comparison of the Hilbert spectra with Fourier and wavelet spectra to demonstrate a better localization of the energy components which also exhibit strong seasonal components.
Descripción: For the analysis of time series data from hydrology, we used a recently developed technique that is by now widely known as the Hilbert-Huang transform (HHT). Specifically, it is designed for nonlinear and nonstationary data. In contrast to data analysis techniques using the short-time, windowed Fourier transform or the continuous wavelet transform, the new technique is empirically adapted to the data in the following sense. First, an additive decomposition, called empirical mode decomposition (EMD), of the data into certain multiscale components is computed. Second, to each of these components, the Hilbert transform is applied. The resulting Hilbert spectrum of the modes provides a localized time-frequency spectrum and instantaneous (time-dependent) frequencies. In this study, we applied the HHT to hydrological time series data from the Upper Rur Catchment Area, mostly German territory, taken during a period of 20 yr. Our first observation was that a coarse approximation of the data can be derived by truncating the EMD representation. This can be used to better model patterns like seasonal structures. Moreover, the corresponding time-frequency energy spectrum applied to the complete EMD revealed seasonal events in a particular apparent way together with their energy. We compared the Hilbert spectra with Fourier spectrograms and wavelet spectra to demonstrate a better localization of the energy components, which also exhibit strong seasonal components. The Hilbert energy spectrum of the three measurement stations appear to be very similar, indicating little local variability in drainage.
Editor: Madison: Soil Science Society of America
Idioma: Inglés

Volver a la lista de resultados

Anterior Resultado 7 Siguiente Ir a la siguiente página

Realización: Logos de Redes Sociales:

Multiscale analysis of hydrologic time series data using the Hilbert-Huang transform

Rudi, J ; Pabel, R ; Jager, G ; Koch, R ; Kunoth, A ; Bogena, H

Madison: Soil Science Society of America

Buscando en bases de datos remotas, por favor espere