This book comprehensively accounts the advances in data-based approaches for hydrologic modeling and forecasting. Eight major and most popular approaches are selected, with a chapter for each stochastic methods, parameter estimation techniques, scaling and fractal methods, remote sensing, artificial neural networks, evolutionary computing, wavelets, and nonlinear dynamics and chaos methods.These approaches are chosen to address a wide range of hydrologic system characteristics, processes, and the associated problems. Each of these eight approaches includes a comprehensive review of the fundamental concepts, their applications in hydrology, and a discussion on potential future directions
Recent technological advances, such as powerful computers, remote sensors, geographic information sy...
In order to achieve the effective control of water resources systems, one must know the future behav...
In the last years, many European countries have experienced the effects of climate change, in the fo...
The impacts of climate change on water resource management, as well as increasingly severe natural d...
Session HS8.1 Hydroinformatics: computational intelligence and systems analysis Hydroinformatics...
During the last two decades, applications of nonlinear dynamic and chaos theories to hydrologic syst...
The paper presents a data-driven approach to the modelling and forecasting of hydrological systems b...
Several studies indicate that the data-driven models have proven to be potentially useful tools in h...
Abstract: Natural systems exhibit random, chaotic, and multiply periodic behaviors that are driven b...
Hydrological Sciences Programme - Session HS38 "Hydroinformatics: computational intelligence and tec...
Hydrological Sciences Programme Session HS6.1: Hydroinformatics: computational intelligence and tech...
none4Session HS 2.1: Hydroinformatics: computational intelligence and technological developments in ...
During the last two decades or so, studies on the applications of the concepts of nonlinear dynamics...
Abstract Briefly tracing the history of hydrologic modeling, this paper discusses the progress that ...
A comprehensive data driven modeling experiment is presented in a two-part paper. In this first part...
Recent technological advances, such as powerful computers, remote sensors, geographic information sy...
In order to achieve the effective control of water resources systems, one must know the future behav...
In the last years, many European countries have experienced the effects of climate change, in the fo...
The impacts of climate change on water resource management, as well as increasingly severe natural d...
Session HS8.1 Hydroinformatics: computational intelligence and systems analysis Hydroinformatics...
During the last two decades, applications of nonlinear dynamic and chaos theories to hydrologic syst...
The paper presents a data-driven approach to the modelling and forecasting of hydrological systems b...
Several studies indicate that the data-driven models have proven to be potentially useful tools in h...
Abstract: Natural systems exhibit random, chaotic, and multiply periodic behaviors that are driven b...
Hydrological Sciences Programme - Session HS38 "Hydroinformatics: computational intelligence and tec...
Hydrological Sciences Programme Session HS6.1: Hydroinformatics: computational intelligence and tech...
none4Session HS 2.1: Hydroinformatics: computational intelligence and technological developments in ...
During the last two decades or so, studies on the applications of the concepts of nonlinear dynamics...
Abstract Briefly tracing the history of hydrologic modeling, this paper discusses the progress that ...
A comprehensive data driven modeling experiment is presented in a two-part paper. In this first part...
Recent technological advances, such as powerful computers, remote sensors, geographic information sy...
In order to achieve the effective control of water resources systems, one must know the future behav...
In the last years, many European countries have experienced the effects of climate change, in the fo...