Verfügbarkeit: Chaos in Hydrology

Chaos in Hydrology: Bridging Determinism and Stochasticity

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Bibliographische Detailangaben
1. Verfasser:	Sivakumar, Bellie (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Dordrecht Springer [2017]
Schlagworte:	Earth sciences Hydrology Hydrogeology Geotechnical engineering System theory Civil engineering Earth Sciences Hydrology/Water Resources Civil Engineering Complex Systems Geotechnical Engineering & Applied Earth Sciences Statistical Physics and Dynamical Systems Geowissenschaften
Online-Zugang:	BTU01 FFW01 TUM01 UBG01 UBT01 UPA01 Volltext Inhaltsverzeichnis
Beschreibung:	1 Online Ressource (XXX, 394 p. 62 illus., 25 illus. in color)
ISBN:	9789048125524
DOI:	10.1007/978-90-481-2552-4

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Datensatz im Suchindex

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adam_text	Titel: Chaos in hydrology Autor: Sivakumar, Bellie Jahr: 2017 Contents Part I Hydrologie Systems and Modeling 1 Introduction............................................. 3 1.1 Definition of Hydrology.............................. 3 1.2 Hydrologie Cycle................................... 4 1.3 Scientific Development of Hydrology........................................6 1.4 Concept of Hydrologie System..................................................9 1.5 Hydrologie System Model........................................................11 1.6 Hydrologie Model Classification................................................13 1.6.1 Physical Models..........................................................13 1.6.2 Abstract Models..........................................................14 1.6.3 Remarks......................................................................15 1.7 Hydrologie Data and Time Series Modeling..............................15 1.8 Physical Basis of Time Series Modeling....................................17 1.9 Scope and Organization of the Book........................................19 References..............................................................................................21 2 Characteristics of Hydrologie Systems................................................29 2.1 Introduction..............................................................................29 2.2 Complexity................................................................................30 2.3 Correlation and Connection......................................................32 2.4 Trend........................................................................................34 2.5 Periodicity, Cyclicity, and Seasonality......................................34 2.6 Intermittency..............................................................................36 2.7 Stationarity and Nonstationarity................................................36 2.8 Linearity and Nonlinearity........................................................38 2.9 Determinism and Randomness..................................................39 2.10 Scale, Scaling, and Scale-invariance..........................................41 2.11 Self-organization and Self-organized Criticality........................43 2.12 Threshold..................................................................................44 2.13 Emergence................................................................................46 2.14 Feedback....................................................................................47 xiii xiv Contents 2.15 Sensitivity to Initial Conditions..................................................48 2.16 The Class of Nonlinear Determinism and Chaos........................49 2.17 Summary..................................................................................50 References..............................................................................................50 3 Stochastic Time Series Methods..........................................................63 3.1 Introduction..............................................................................63 3.2 Brief History of Development of Stochastic Methods................65 3.3 Hydrologie Time Series and Classification................................66 3.4 Relevant Statistical Characteristics and Estimators....................67 3.4.1 Mean..........................................................................68 3.4.2 Variance....................................................................68 3.4.3 Coefficient of Variation..............................................69 3.4.4 Skewness Coefficient..................................................69 3.4.5 Autocorrelation Function............................................69 3.4.6 Power Spectrum..........................................................70 3.5 Parametric Methods..................................................................71 3.5.1 Autoregressive (AR) Models......................................71 3.5.2 Moving Average (MA) Models..................................73 3.5.3 Autoregressive Moving Average (ARMA) Models ... 73 3.5.4 Gamma Autoregressive (GAR) Models......................75 3.5.5 Periodic Models: PAR, PARMA, and PGAR Models........................................................................76 3.5.6 Extension of AR, ARMA, PAR, and PARMA Models to Multiple Variables....................................79 3.5.7 Disaggregation Models..............................................80 3.5.8 Markov Chain Models................................................82 3.5.9 Point Process Models..................................................84 3.5.10 Other Models..............................................................87 3.5.11 Remarks......................................................................88 3.6 Nonparametric Methods............................................................88 3.6.1 Bootstrap and Block Bootstrap..................................89 3.6.2 Kemel Density Estimate............................................90 3.6.3 k-Nearest Neighbor Resampling (KNNR)..................92 3.6.4 k-Nearest Neighbors with Local Polynomial Regression..................................................................94 3.6.5 Others........................................................................95 3.7 Summaty..................................................................................96 References..............................................................................................96 4 Modern Nonlinear Time Series Methods............................................Ill 4.1 Introduction..............................................................................Ill 4.2 Nonlinear Stochastic Methods....................................................112 4.3 Data-based Mechanistic Models................................................113 4.4 Artificial Neural Networks........................................................115 Contents xv 4.5 Support Vector Machines..........................................................118 4.6 Wavelets....................................................................................120 4.7 Evolutionary Computing............................................................123 4.8 Fuzzy Logic..............................................................................126 4.9 Entropy-based Models..............................................................128 4.10 Nonlinear Dynamics and Chaos................................................129 4.11 Summary..................................................................................130 References..............................................................................................131 Part II Nonlinear Dynamics and Chaos 5 Fundamentals of Chaos Theory..........................................................149 5.1 Introduction..............................................................................149 5.2 Definition of Chaos....................................................................150 5.3 Brief History of the Development of Chaos Theory..................151 5.4 Dynamical Systems and Stability Analysis................................153 5.5 Attractors..................................................................................154 5.6 Bifurcations..............................................................................156 5.7 Interaction and Interdependence................................................157 5.8 Sensitivity to Initial Conditions..................................................158 5.9 State Space and Phase Space....................................................159 5.10 Fractal and Fractal Dimension..................................................161 5.11 Examples of Chaotic Dynamic Equations..................................161 5.11.1 Logistic Map..............................................................162 5.11.2 Henon Map................................................................164 5.11.3 Lorenz System............................................................164 5.11.4 Rössler System..........................................................167 5.12 Summary..................................................................................168 References..............................................................................................169 6 Chaos Identification and Prediction Methods....................................173 6.1 Introduction....................................... 173 6.2 Linear Tools and Limitations....................................................175 6.3 Phase Space Reconstruction......................................................177 6.4 Correlation Dimension Method..................................................179 6.4.1 Basic Concept............................................................179 6.4.2 The Grassberger-Procaccia (G-P) Algorithm..............180 6.4.3 Identification of Number of System Variables............181 6.4.4 An Example................................................................181 6.4.5 Improvements to the G-P Algorithm..........................182 6.5 False Nearest Neighbor (FNN) Algorithm................................183 6.6 Lyapunov Exponent Method......................................................184 6.7 Kolmogorov Entropy Method....................................................186 xvi Contents 6.8 Surrogate Data Method..............................................................187 6.9 Poincaré Maps..........................................................................189 6.10 Close Returns Plot....................................................................189 6.11 Nonlinear Prediction..................................................................191 6.11.1 Local Approximation Prediction................................191 6.11.2 Inverse Approach to Chaos Identification..................192 6.12 Summary..................................................................................193 References..............................................................................................194 7 Issues in Chaos Identification and Prediction....................................199 7.1 Introduction..............................................................................199 7.2 Delay Time................................................................................200 7.2.1 Delay Time Selection................................................201 7.2.2 Delay Window Selection............................................203 7.2.3 Remarks......................................................................204 7.3 Data Size..................................................................................205 7.3.1 Effects of Data Size....................................................206 7.3.2 Minimum Data Size....................................................207 7.4 Data Noise................................................................................211 7.4.1 Effects of Noise..........................................................212 7.4.2 Noise Level Determination........................................214 7.4.3 Noise Reduction........................................................216 7.4.4 Coupled Noise Level Determination and Reduction: An Example......................................219 7.5 Zeros in Data............................................................................222 7.6 Other Issues..............................................................................223 7.7 Summary..................................................................................223 References..............................................................................................224 Part III Applications of Chaos Theory in Hydrology 8 Overview . ............................................................................................231 8.1 Introduction..............................................................................231 8.2 Early Stage (1980s-1990s)........................................................232 8.3 Change of Course (2000-2006)................................................236 8.4 Looking at Global-scale challenges (2007-)..............................237 8.5 Summary..................................................................................239 References..............................................................................................239 9 Applications to Rainfall Data..............................................................245 9.1 Introduction..............................................................................245 9.2 Identification and Prediction......................................................246 9.2.1 Chaos Analysis of Rainfall: An Example—Göta River Basin................................................................250 Contents xvii 9.3 Scaling and Disaggregaüon/Downscaling..................................252 9.3.1 Chaotic Scale-invariance: An Example—Leaf River Basin................................................................252 9.3.2 Chaotic Disaggregation: An Example—Leaf River Basin..........................................................................255 9.3.3 Others........................................................................260 9.4 Spatial Variability and Classification..........................................261 9.5 Others (Data Size, Noise Reduction, Zeros)..............................263 9.6 Summary..................................................................................263 References..............................................................................................264 10 Applications to River Flow Data........................................................267 10.1 Introduction..............................................................................267 10.2 Identification and Prediction......................................................268 10.2.1 Chaos Analysis in River Flow: An Example—Coaracy Nunes/Araguari River Basin................................................................272 10.3 Scaling and Disaggregation........................................................276 10.3.1 Chaos and Scaling......................................................276 10.3.2 Chaotic Disaggregation of River Flow........................279 10.4 Spatial Variability and Classification..........................................285 10.5 Others........................................................................................291 10.6 Summary..................................................................................292 References..............................................................................................292 11 Applications to Other Hydrologie Data..............................................297 11.1 Introduction..............................................................................297 11.2 Rainfall-runoff...........................................................................298 11.3 Lake Volume and Level............................................................301 11.4 Sediment Transport....................................................................302 11.5 Groundwater..............................................................................310 11.5.1 Solute Transport........................................................311 11.5.2 Arsenic Contamination..............................................315 11.6 Others........................................................................................316 11.7 Summary..................................................................................317 References..............................................................................................318 12 Studies on Hydrologie Data Issues......................................................321 12.1 Introduction..............................................................................321 12.2 Delay Time................................................................................322 12.3 Data Size..................................................................................325 12.4 Data Noise................................................................................329 12.5 Zeros in Data............................................................................332 12.6 Others........................................................................................335 12.7 Summary..................................................................................336 References..............................................................................................336 xviii Contents Part IV A Look Ahead 13 Current Status......................................................................................343 13.1 Introduction..............................................................................343 13.2 Reliable Identification................................................................344 13.3 Encouraging Predictions............................................................346 13.4 Successful Extensions................................................................347 13.5 Limitations and Concerns..........................................................349 13.6 Discussions and Debates............................................................351 13.7 Summary..................................................................................352 References..............................................................................................352 14 The Future............................................................................................357 14.1 Introduction..............................................................................357 14.2 Parameter Estimation................................................................358 14.3 Model Simplification..................................................................359 14.4 Integration of Concepts..............................................................362 14.5 Catchment Classification Framework........................................363 14.6 Multi-variable Analysis..............................................................365 14.7 Reconstruction of System Equations..........................................366 14.8 Downscaling of Global Climate Model Outputs........................367 14.9 Linking Theory, Data, and Physics............................................368 14.10 Summary..................................................................................369 References..............................................................................................370 15 Final Thoughts: Philosophy and Pragmatism....................................375 15.1 Introduction..............................................................................375 15.2 Philosophy................................................................................376 15.3 Pragmatism................................................................................378 15.4 Closing Remarks........................................................................380 References..............................................................................................381 Index...................................................... 383
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spelling	Sivakumar, Bellie Verfasser aut Chaos in Hydrology Bridging Determinism and Stochasticity Bellie Sivakumar Dordrecht Springer [2017] © 2017 1 Online Ressource (XXX, 394 p. 62 illus., 25 illus. in color) txt rdacontent c rdamedia cr rdacarrier Earth sciences Hydrology Hydrogeology Geotechnical engineering System theory Civil engineering Earth Sciences Hydrology/Water Resources Civil Engineering Complex Systems Geotechnical Engineering & Applied Earth Sciences Statistical Physics and Dynamical Systems Geowissenschaften Erscheint auch als Druckausgabe 978-90-481-2551-7 https://doi.org/10.1007/978-90-481-2552-4 Verlag URL des Erstveröffentlichers Volltext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029342795&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Sivakumar, Bellie Chaos in Hydrology Bridging Determinism and Stochasticity Earth sciences Hydrology Hydrogeology Geotechnical engineering System theory Civil engineering Earth Sciences Hydrology/Water Resources Civil Engineering Complex Systems Geotechnical Engineering & Applied Earth Sciences Statistical Physics and Dynamical Systems Geowissenschaften
title	Chaos in Hydrology Bridging Determinism and Stochasticity
title_auth	Chaos in Hydrology Bridging Determinism and Stochasticity
title_exact_search	Chaos in Hydrology Bridging Determinism and Stochasticity
title_full	Chaos in Hydrology Bridging Determinism and Stochasticity Bellie Sivakumar
title_fullStr	Chaos in Hydrology Bridging Determinism and Stochasticity Bellie Sivakumar
title_full_unstemmed	Chaos in Hydrology Bridging Determinism and Stochasticity Bellie Sivakumar
title_short	Chaos in Hydrology
title_sort	chaos in hydrology bridging determinism and stochasticity
title_sub	Bridging Determinism and Stochasticity
topic	Earth sciences Hydrology Hydrogeology Geotechnical engineering System theory Civil engineering Earth Sciences Hydrology/Water Resources Civil Engineering Complex Systems Geotechnical Engineering & Applied Earth Sciences Statistical Physics and Dynamical Systems Geowissenschaften
topic_facet	Earth sciences Hydrology Hydrogeology Geotechnical engineering System theory Civil engineering Earth Sciences Hydrology/Water Resources Civil Engineering Complex Systems Geotechnical Engineering & Applied Earth Sciences Statistical Physics and Dynamical Systems Geowissenschaften
url	https://doi.org/10.1007/978-90-481-2552-4 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029342795&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT sivakumarbellie chaosinhydrologybridgingdeterminismandstochasticity

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