pro or e ari sis e s on sfo an llus tion but non-stationary, e.g. baroclinic tidal currents, river tides, continental shelf internal tides, and some kinds of biological activity in the coastal ocean. In all cases, wavelet analysis provides a consistent, linear analysis of tidal and non-tidal variance and reveals features that harmonic analysis on a Fourier transform approach could not elucidate
An efficient algorithm of tidal harmonic analysis and prediction is presented in this paper. The ana...
Time-frequency analysis and digital signal processing are important tools in the field of coastal en...
Analysis of tidal waves is a very crucial step when designing coastal structures. The forces on the ...
Wavelet transforms provide a valuable new tool for analysis of tidal processes that deviate markedly...
Wavelet analysis is a powerful and popular tool for the analysis of non-stationary signals. The wave...
The essential features of the classical harmonic analysis of tides are recapitulated in view of the ...
Tides are often non-stationary on multiple time-scales due to non-linear dynamical interactions. Inv...
Activity at the coastal areas required accurate tidal analysis and prediction. Tides are a result of...
Interactions of barotropic tidal currents with continental shelves result in the generation of inter...
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...
River-tide dynamics remain poorly understood, in part because conventional harmonic analysis (HA) do...
Quite a long time the analysis of tidal observations has been based on the knowledge of the frequenc...
Coastal ocean numerical modeling is basically the representation of the dynamics of the coastal ocea...
On the basis of bispectral analysis applied to the hourly data set of neutral wind measured by mete...
An efficient algorithm of tidal harmonic analysis and prediction is presented in this paper. The ana...
Time-frequency analysis and digital signal processing are important tools in the field of coastal en...
Analysis of tidal waves is a very crucial step when designing coastal structures. The forces on the ...
Wavelet transforms provide a valuable new tool for analysis of tidal processes that deviate markedly...
Wavelet analysis is a powerful and popular tool for the analysis of non-stationary signals. The wave...
The essential features of the classical harmonic analysis of tides are recapitulated in view of the ...
Tides are often non-stationary on multiple time-scales due to non-linear dynamical interactions. Inv...
Activity at the coastal areas required accurate tidal analysis and prediction. Tides are a result of...
Interactions of barotropic tidal currents with continental shelves result in the generation of inter...
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...
River-tide dynamics remain poorly understood, in part because conventional harmonic analysis (HA) do...
Quite a long time the analysis of tidal observations has been based on the knowledge of the frequenc...
Coastal ocean numerical modeling is basically the representation of the dynamics of the coastal ocea...
On the basis of bispectral analysis applied to the hourly data set of neutral wind measured by mete...
An efficient algorithm of tidal harmonic analysis and prediction is presented in this paper. The ana...
Time-frequency analysis and digital signal processing are important tools in the field of coastal en...
Analysis of tidal waves is a very crucial step when designing coastal structures. The forces on the ...