Wavelet transforms provide a valuable new tool for analysis of tidal processes that deviate markedly from an assumption of exact periodicity inherent in traditional harmonic analysis. A wavelet basis adapted to nonstationary tidal problems is constructed and employed to analyze the modulation of the external tide in a river by variations in streamflow. Interaction of a surface tide with river flow is the best available demonstration of the continuous wavelet transform (CWT) methods developed. It is the simplest and perhaps the only nonstationary tidal process for which both sufficient data and dynamical understanding exist to allow detailed comparisons between CWT analyses and analytical predictions of the response of tides to nontidal forc...
The world’s tides are a result of the combined forces of celestial forces and centrifugal force exer...
The world’s tides are a result of the combined forces of celestial forces and centrifugal force exer...
Tidal waves traveling into estuaries are modified by channel geometry and river flow. The damping ef...
River-tide dynamics remain poorly understood, in part because conventional harmonic analysis (HA) do...
[1] Tidal rivers feature oscillatory and steady gradients in the water surface, controlled by intera...
Abstract: In certain rivers that drain very flat terrains in coastal areas, the streamflow series ob...
Tides are often non-stationary on multiple time-scales due to non-linear dynamical interactions. Inv...
pro or e ari sis e s on sfo an llus tion but non-stationary, e.g. baroclinic tidal currents, river t...
<p>Tidal rivers are a vital and little studied nexus between physical oceanography and hydrology. It...
The water-level time series of a tidal river is influenced by various factors and has a complex stru...
Morphodynamic and hydrodynamic properties are concomitantly part of the entire dynamic of river syst...
Wavelet analysis is a powerful and popular tool for the analysis of non-stationary signals. The wave...
Tidal rivers are a vital and little studied nexus between physical oceanography and hydrology. It is...
Tidal rivers are a vital and little studied nexus between physical oceanography and hydrology. It is...
An exploration of the wavelet transform as applied to daily river discharge records demonstrates its...
The world’s tides are a result of the combined forces of celestial forces and centrifugal force exer...
The world’s tides are a result of the combined forces of celestial forces and centrifugal force exer...
Tidal waves traveling into estuaries are modified by channel geometry and river flow. The damping ef...
River-tide dynamics remain poorly understood, in part because conventional harmonic analysis (HA) do...
[1] Tidal rivers feature oscillatory and steady gradients in the water surface, controlled by intera...
Abstract: In certain rivers that drain very flat terrains in coastal areas, the streamflow series ob...
Tides are often non-stationary on multiple time-scales due to non-linear dynamical interactions. Inv...
pro or e ari sis e s on sfo an llus tion but non-stationary, e.g. baroclinic tidal currents, river t...
<p>Tidal rivers are a vital and little studied nexus between physical oceanography and hydrology. It...
The water-level time series of a tidal river is influenced by various factors and has a complex stru...
Morphodynamic and hydrodynamic properties are concomitantly part of the entire dynamic of river syst...
Wavelet analysis is a powerful and popular tool for the analysis of non-stationary signals. The wave...
Tidal rivers are a vital and little studied nexus between physical oceanography and hydrology. It is...
Tidal rivers are a vital and little studied nexus between physical oceanography and hydrology. It is...
An exploration of the wavelet transform as applied to daily river discharge records demonstrates its...
The world’s tides are a result of the combined forces of celestial forces and centrifugal force exer...
The world’s tides are a result of the combined forces of celestial forces and centrifugal force exer...
Tidal waves traveling into estuaries are modified by channel geometry and river flow. The damping ef...