Within the field of chaos theory several methods for the analysis of complex dynamical systems have recently been proposed. In light of these ideas we study the dynamics which control the behavior over time of river flow, investigating the existence of a low-dimension deterministic component. The present article follows the research undertaken in the work of Porporato and Ridolfi [1996a] in which some clues as to the existence of chaos were collected. Particular emphasis is given here to the problem of noise and to nonlinear prediction. With regard to the latter, the benefits obtainable by means of the interpolation of the available time series are reported and the remarkable predictive results attained with this nonlinear method are shown
Several methods exist for the detection of nonlinearity in univariate time series. In the present w...
A nonlinear prediction method, developed based on the ideas gained from deterministic chaos theory, ...
During the last two decades, applications of nonlinear dynamic and chaos theories to hydrologic syst...
The Various physical mechanisms governing river flow dynamics act on a wide range of temporal and sp...
Chaos theory offers new means of understanding and prediction of phenomena otherwise considered ran...
Whether or not river flow exhibits nonlinear determinism remains an unresolved question. While studi...
River flow prediction is important in determining the amount of water in certain areas to ensure suf...
Short-term prediction of hydrological time series using chaotic dynamical systems approach is gainin...
During the last two decades or so, studies on the applications of the concepts of nonlinear dynamics...
The gauged river data play an important role in modeling, planning and management of the river basin...
In the present contribution we focus our attention on the possible signatures of a chaotic behaviour...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
Abstract In the last two decades, several researchers have claimed to have discovered low-dimensiona...
Analyses and investigations on river flow behavior are major issues in design, operation and studies...
Several methods exist for the detection of nonlinearity in univariate time series. In the present w...
A nonlinear prediction method, developed based on the ideas gained from deterministic chaos theory, ...
During the last two decades, applications of nonlinear dynamic and chaos theories to hydrologic syst...
The Various physical mechanisms governing river flow dynamics act on a wide range of temporal and sp...
Chaos theory offers new means of understanding and prediction of phenomena otherwise considered ran...
Whether or not river flow exhibits nonlinear determinism remains an unresolved question. While studi...
River flow prediction is important in determining the amount of water in certain areas to ensure suf...
Short-term prediction of hydrological time series using chaotic dynamical systems approach is gainin...
During the last two decades or so, studies on the applications of the concepts of nonlinear dynamics...
The gauged river data play an important role in modeling, planning and management of the river basin...
In the present contribution we focus our attention on the possible signatures of a chaotic behaviour...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
Abstract In the last two decades, several researchers have claimed to have discovered low-dimensiona...
Analyses and investigations on river flow behavior are major issues in design, operation and studies...
Several methods exist for the detection of nonlinearity in univariate time series. In the present w...
A nonlinear prediction method, developed based on the ideas gained from deterministic chaos theory, ...
During the last two decades, applications of nonlinear dynamic and chaos theories to hydrologic syst...