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Deterministic Methods in Systems Hydrology presents the basic theory underlying the multitude of parameter-rich models which dominate the hydrological literature. Its objectives are to introduce the elements of systems science as applied to hydrological problems; to present flood prediction and flood routing as problems in linear systems theory, clarifying the basic assumptions and evaluating their accuracy; and to review and to evaluate some deterministic models of components of the hydrological cycle, with a view to assembling the most appropriate model of catchment response, for a particular problem in applied hydrology. The material is developed in two parts: the first four chapters present the systems viewpoint, the nature of hydrological systems, some systems mathematics and their application to direct storm runoff. The final four chapters cover linear conceptual models of direct runoff, the fitting of conceptual models to data, simple models of subsurface flow and non-linear deterministic models.
List of contents
1. The Systems Viewpoint
2. Nature of Hyrological Systems
3. Some Systems Mathematics
4. Black-Box Analysis of Direct Storm Runoff
5. Linear Conceptual Models od Direct Runoff
6. Fitting the Model to the Data
7. Simple Models of Subsurface Flow
8. Non-Linear Deterministic Models Problem Set
About the author
For many years Professor James C. I. Dooge was invited to the IHE in Delft to present a short series of lectures (1968-1981) on Deterministic Hydrology to IHE's International Course for Hydrologists. This book is largely based on the lecture notes he used. In 1992 Professor Dooge was made an Honorary Fellow of IHE. Subsequently, Professor J. Philip O'Kane delivered the lectures to the international students attending what is now known as the Master Programme in Hydrology and Water Resources. He is the author of the PICOMO program that accompanies the book. The software is downloadable from the IHE website. Both authors have worked together to revise and extend the text for publication.
Summary
Deterministic Methods in Systems Hydrology presents the basic theory underlying the multitude of parameter-rich models which dominate the hydrological literature. Its objectives are to introduce the elements of systems science as applied to hydrological problems; to present flood prediction and flood routing as problems in linear systems theory, clarifying the basic assumptions and evaluating their accuracy; and to review and to evaluate some deterministic models of components of the hydrological cycle, with a view to assembling the most appropriate model of catchment response, for a particular problem in applied hydrology. The material is developed in two parts: the first four chapters present the systems viewpoint, the nature of hydrological systems, some systems mathematics and their application to direct storm runoff. The final four chapters cover linear conceptual models of direct runoff, the fitting of conceptual models to data, simple models of subsurface flow and non-linear deterministic models.
