The gauged river data play an important role in modeling, planning and management of the river basins. Among the hydrological data, the daily discharge data seem to be more significant for de-termining the amount of energy production and the control the risks of floods and drought. Hence, the data need correct measurement, analysis, and reliable estimates. The purpose of the paper is to investigate the question whether all the stations in a river basin exhibit chaotic behavior. For this purpose, the daily discharge data of four gauge stations are examined by using three nonlin-ear data analysis methods: 1) phase space reconstruction; 2) correlation dimension; and 3) local approximation where all those methods provide identification of chaot...
Short-term prediction of hydrological time series using chaotic dynamical systems approach is gainin...
A nonlinear prediction method, developed based on the ideas gained from deterministic chaos theory, ...
The Various physical mechanisms governing river flow dynamics act on a wide range of temporal and sp...
Estimation of rivers suspended load is one of the major issues of topics related to river engineerin...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
The hydrological regime is the main factor governing the functioning of floodplain rivers. A full co...
River flow prediction is important in determining the amount of water in certain areas to ensure suf...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
Chaos theory offers new means of understanding and prediction of phenomena otherwise considered ran...
Conventionally the process of rainfall is considered as a stochastic process and the last century wi...
Analyses and investigations on river flow behavior are major issues in design, operation and studies...
Out of the various methods available to study the chaotic behaviour, correlation dimension method (C...
Within the field of chaos theory several methods for the analysis of complex dynamical systems have ...
Sivakumar et al. (2000a), by employing the correlation dimension method, provided preliminary evide...
Chaotic analysis has been performed on the river flow time series before and after applying the wave...
Short-term prediction of hydrological time series using chaotic dynamical systems approach is gainin...
A nonlinear prediction method, developed based on the ideas gained from deterministic chaos theory, ...
The Various physical mechanisms governing river flow dynamics act on a wide range of temporal and sp...
Estimation of rivers suspended load is one of the major issues of topics related to river engineerin...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
The hydrological regime is the main factor governing the functioning of floodplain rivers. A full co...
River flow prediction is important in determining the amount of water in certain areas to ensure suf...
Earthquakes, floods, rainfall represent a class of nonlinear systems termed chaotic, in which the re...
Chaos theory offers new means of understanding and prediction of phenomena otherwise considered ran...
Conventionally the process of rainfall is considered as a stochastic process and the last century wi...
Analyses and investigations on river flow behavior are major issues in design, operation and studies...
Out of the various methods available to study the chaotic behaviour, correlation dimension method (C...
Within the field of chaos theory several methods for the analysis of complex dynamical systems have ...
Sivakumar et al. (2000a), by employing the correlation dimension method, provided preliminary evide...
Chaotic analysis has been performed on the river flow time series before and after applying the wave...
Short-term prediction of hydrological time series using chaotic dynamical systems approach is gainin...
A nonlinear prediction method, developed based on the ideas gained from deterministic chaos theory, ...
The Various physical mechanisms governing river flow dynamics act on a wide range of temporal and sp...