Download or read book Statistical Learning for Unimpaired Flow Prediction in Ungauged Basins written by Elaheh White and published by . This book was released on 2020 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: All science is the search for unity in hidden likeness (Bronowski, 1988). There are two practical reasons to approximate processes that produce such hidden likeness: (1) prediction for interpolation or extrapolation to unknown (often future) situations; and (2) inferenceto understand how variables are connected or how change in one affects others. Statistical learning tools aid prediction and at times inference. In recent years, rapidly growing computing power, the advent of machine learning algorithms, and more user-friendly programming languages (e.g., R and Python) support applying statistical learning methods to broader societal problems. This dissertation develops statistical learning models, generally simpler than mechanistic models, to predict unimpaired flows of California basins from available data. Unimpaired flow is the flow produced by the basin in its current state, but without human-created or operated water storage, diversion, or return flows (California Department of Water Resources, Bay-Delta Office, 2016). The models predict unimpaired flows for ungauged basins, an International Association of Hydrological Sciences "grand challenge" in hydrology. In Predicting Ungauged Basins (PUB), the models learn from information at gauged points on a river and extrapolate to ungauged locations. Several issues arise in this prediction problem: (1) How we view hydrology and how we define observational units determine how data is pre-processed for statistical learning methods. So, one issue is in deciding the organization of the data (e.g., aggregate vs. incrementalbasins). Such data transformation or pre-processing is explored in Chapter 2. (2) Often, water resources problems are not concerned with accurately predicting the expectation (or mean) of a distribution but require better estimates of extreme values of the distribution(e.g., floods and droughts). Solving this problem involves defining asymmetric loss functions, which is presented in Chapter 3. (3) Hydrologic observations have inherent dependencies and correlation structure; gauge data are structured in time and space, and rivers form a network of flows that feed into one another (i.e., temporal, spatial, and hierarchical autocorrelation). These characteristics require careful construction of resampling techniques for model error estimation, which is discussed in Chapter 4. (4) Non-stationarity due to climate change may require adjustments to statistical models, especially for long-term decision-making. Chapter 5 compares unimpaired flow predictions from a statistical model that uses climate variables representing future hydrology to projections from climate models. These issues make Predicting Ungauged Basins (PUB) a non-trivial problem for statistical learning methods operating with no a priori knowledge of the system. Compared to physical or semi-physical models, statistical learning models learn from the data itself, withno assumptions on underlying processes. Their advantages lie in their fast and easy development, simplicity of use, lesser data requirements, good performance, and flexibility in model structure and parameter specifications. In the past two decades, more sophisticated statistical learning models have been applied to rainfall-runoff modeling. However, with these methods, there are issues such as the danger of overfitting, their lack of justification outside the range of underlying data sets, complexity in model structure, and limitations from the nature of the algorithms deployed. Keywords: predicting ungauged basins (PUB); rainfall-runoff modeling; asymmetric loss functions; structured data; blocked resampling methods; climate change; water resources; hydrology; statistical learning.

Download or read book Predicting Unimpaired Flow in Ungauged Basins written by Elaheh White and published by . This book was released on 2017 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Predicting and forecasting streamflow at ungauged sites is a grand challenge for hydrology (Sivapalan et al., 2003). Such predictions are needed for improved streamflow restoration, flood and drought forecasting, and reservoir release decisions. Traditional hydrologic models are mechanistic; they require a set of system characteristics such as, basin geometry, channel slope, and climate conditions, and they use physics-based governing equations for fluid flow to predict runoff. An alternative approach is to use statistical models to predict water flows from climate and basin characteristics. Such models are easy to construct, run fast, and require little expert intervention in calibrating or tweaking parameters, but they have not been widely used in hydrology. This study used Random Forest (RF) models, a regression-tree based statistical learning algorithm, to model monthly unimpaired flows in 69 California basins. The test set error (Coefficient of Determination, R2=0.69, Nash-Sutcliffe Efficiency, NSE=0.74) from cross-validation reflects the model’s ability to capture the variations in flow at a monthly resolution. Next, All predictor variables were ranked based on their relative importance (i.e., contribution to reducing the prediction errors). The most important variables were: precipitation, basin drainage area, precipitation lagged one month, month, and basin relief ratio. The RF model was benchmarked against the Basin Characterization Model (BCM), a mechanistic model, and a Linear Multivariate Regression (LMR) model with the same predictor variables as that of the RF model. The RF model out-performs the LMR, but falls short of the BCM. The RF model quality in predicting unimpaired flow was highly spatially variable. Model improvement strategies are discussed.

Download or read book Flow Duration Curve Prediction for Ungauged Basins written by and published by . This book was released on 2016 with total page 188 pages. Available in PDF, EPUB and Kindle. Book excerpt: The flow duration curve (FDC) is one of the most widely used tools for displaying streamflow data, and percentile flows derived from the FDC provide essential information for managing rivers. These statistics are generally not available since most basins are ungauged. Percentile flows are frequently predicted using regression models developed using streamflow and ancillary data from gauged basins. Many potential independent variables are now available to predict percentile flows due to the ready availability of spatially distributed physical and climatic data for basins. A subset of the variables is often selected using automated regression procedures, but these procedures only evaluate a portion of the possible variable combinations. Other approaches for exploiting the information from physical and climatic data may produce stronger models for predicting percentile flows. The overarching hypothesis guiding this dissertation research was that more extensive approaches for extracting information from large sets of independent variables may improve percentile flow predictions. The dissertation was organized into the following three linked studies: (1) a performance evaluation of various approaches for selecting the independent variables of percentile flow regression models, (2) a comparison of different sets of variables for percentile flow regression modeling with increasing amounts of information in terms of the number of variables and their description of the statistical distribution of the data, and (3) a proof-of-concept study using a neural network approach called the self-organizing map (SOM) to account for the noise and non-linearity of predictive relations between the independent variables and percentile flows. Key findings from these studies were as follows: (1) random forests was the best approach for selecting the independent variables for regression models used to predict percentile flows, but variables selected based on a conceptual understanding of the FDC performed nearly as well, (2) a set of only three variables (mean annual precipitation, potential evapotranspiration, and baseflow index) performed as well as models with larger sets of variables representing more physical and climatic information, and (3) the SOM performed similarly to global regression models based on all the basins, but did not outperform regression models developed for regions composed of similar basins. This may be due to the SOM using all the independent variables, whereas the regression models discarded irrelevant variables that could increase the error in percentile flow predictions. All the studies of this dissertation were performed using 918 basins in the contiguous US, and the resulting predictive models provide a tool for local watershed managers to predict 13 percentile flows along with an estimate of the predictive error. These models could be improved through future research that (1) emphasizes the role of geology as this provided the most valuable information for predicting the percentile flows, (2) exploits new sources of remotely sensed information as classic topographic variables provided little predictive information, and (3) develops specialized models designed for high and low flows as these were the most difficult to predict.

Download or read book Flow and Sediment Prediction at Ungauged Basins Using Artificial Intelligence Models and Entropy Index written by Maya Atieh and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The prediction of streamflow and sediment load statistics at locations within ungauged remote basins remains one of the most uncertain modelling tasks in hydrology. The intent of this research was to gain a better understanding of flow and sediment load statistics at ungauged basins through 1) developing artificial neural networks (ANN), and gene expression programming (GEP) models that address the complex nonlinear effect of physio-climatic parameters on flow duration curve (FDC) and sediment rating curve (SRC) statistics, 2) determining the most important physio-climatic parameters impacting FDC parameters (mean, variance), and SRC parameters (rating coefficient and exponent), 3) introducing an entropy parameter, apportionment entropy disorder index (AEDI), that represents precipitation variability, 4) adopting techniques within ANN models to cope with data scarcity including the Dropout method and synthetic minority over-sampling technique (SMOTE), and 5) assessing the impacts of flow regulation on FDC parameters. ANN models trained and tested on 147 stations in Ontario, Canada, revealed that climatic, topographic and land cover characteristics were the most important inputs defining average flow. Topographic and hydrologic characteristics were the most important parameters defining flow variability. ANN and GEP models trained and tested on 260 regulated and unregulated gauging stations across North America showed that drainage area followed by mean annual precipitation, shape factor and AEDI were the most influential parameters on average flow. Regulation was found to affect flow variability and had no significant impact on average flow. Dropout and SMOTE techniques improved model performance. ANN models trained and tested on 94 gauged streams in Ontario, Canada revealed that the rating coefficient is positively correlated to rainfall erosivity factor, soil erodibility factor, and AEDI and negatively correlated to vegetation cover and mean annual snowfall. The rating exponent was found to be positively correlated to mean annual precipitation, AEDI, main channel slope, standard deviation of flow and negatively correlated to the fraction of basin area covered by water. AEDI has been successfully integrated in the FDC and SRC prediction models. Including AEDI parameter in FDC and SRC models improved model performance. This thesis recommends using AEDI in future hydrological modelling research.

Download or read book Advancing Flood Flow Prediction Models for Ungauged Basins written by Rachel Walton and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Predicting peak flows at ungauged basins has been a notable focus in water resources research, however the majority of methods are only appropriate for a small area, cannot be translated to other jurisdictions, or require variables that are difficult to measure or obtain. Through the analysis of over 7000 stream gauges from the USA, this work presents a simple, unified equation to predict return period peak flows, incorporating influential and easy to obtain input variables. Two novel variables are introduced: the Land Use Soil (LUS) factor and the 2 - year return precipitation effect (PE2). The equation achieved an R2 of 0.95, 0.83 and 0.86 on the training, testing and southern Ontario data sets, respectively, demonstrating high predictive capabilities. This research presents a logical method for predicting return period peak flows while advancing insight on the implications of land use, soil and precipitation on the magnitude of peak flows.

Download or read book Streamflow Prediction in Ungauged Basins Located Within Data scarce Regions written by Mohammadhossein Alipour and published by . This book was released on 2019 with total page 193 pages. Available in PDF, EPUB and Kindle. Book excerpt: Finally, the value added by a limited number of streamflow observations to improvement of predictions in an ungauged catchment located within a data-scarce region is studied. The large number of test scenarios indicate that there may be very few near-universal schemes to improve flow predictions in such catchments.

Download or read book Prediction of Ungauged Basins Uncertain Criteria Conditioning Regionalization and Multimodel Methods written by Adam M. Wyatt and published by . This book was released on 2009 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Hydrological Data Driven Modelling written by Renji Remesan and published by Springer. This book was released on 2014-11-03 with total page 261 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book explores a new realm in data-based modeling with applications to hydrology. Pursuing a case study approach, it presents a rigorous evaluation of state-of-the-art input selection methods on the basis of detailed and comprehensive experimentation and comparative studies that employ emerging hybrid techniques for modeling and analysis. Advanced computing offers a range of new options for hydrologic modeling with the help of mathematical and data-based approaches like wavelets, neural networks, fuzzy logic, and support vector machines. Recently machine learning/artificial intelligence techniques have come to be used for time series modeling. However, though initial studies have shown this approach to be effective, there are still concerns about their accuracy and ability to make predictions on a selected input space.

Download or read book California Basins written by United States. National Resources Committee. Water Resources Committee and published by . This book was released on 1937 with total page 40 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Selected Water Resources Abstracts written by and published by . This book was released on 1991 with total page 898 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Runoff Prediction in Ungauged Basins written by Günter Blöschl and published by Cambridge University Press. This book was released on 2013-04-18 with total page 491 pages. Available in PDF, EPUB and Kindle. Book excerpt: Predicting water runoff in ungauged water catchment areas is vital to practical applications such as the design of drainage infrastructure and flooding defences, runoff forecasting, and for catchment management tasks such as water allocation and climate impact analysis. This full colour book offers an impressive synthesis of decades of international research, forming a holistic approach to catchment hydrology and providing a one-stop resource for hydrologists in both developed and developing countries. Topics include data for runoff regionalisation, the prediction of runoff hydrographs, flow duration curves, flow paths and residence times, annual and seasonal runoff, and floods. Illustrated with many case studies and including a final chapter on recommendations for researchers and practitioners, this book is written by expert authors involved in the prestigious IAHS PUB initiative. It is a key resource for academic researchers and professionals in the fields of hydrology, hydrogeology, ecology, geography, soil science, and environmental and civil engineering.

Download or read book Environmental Flow Assessment written by John G. Williams and published by John Wiley & Sons. This book was released on 2019-06-10 with total page 236 pages. Available in PDF, EPUB and Kindle. Book excerpt: Provides critiques of current practices for environmental flow assessment and shows how they can be improved, using case studies. In Environmental Flow Assessment: Methods and Applications, four leading experts critique methods used to manage flows in regulated streams and rivers to balance environmental (instream) and out-of-stream uses of water. Intended for managers as well as practitioners, the book dissects the shortcomings of commonly used approaches, and offers practical advice for selecting and implementing better ones. The authors argue that methods for environmental flow assessment (EFA) can be defensible as well as practicable only if they squarely address uncertainty, and provide guidance for doing so. Introductory chapters describe the scientific and social reasons that EFA is hard, and provide a brief history. Because management of regulated streams starts with understanding freshwater ecosystems, Environmental Flow Assessment: Methods and Applications includes chapters on flow and organisms in streams. The following chapters assess standard and emerging methods, how they should be tested, and how they should (or should not) be applied. The book concludes with practical recommendations for implementing environmental flow assessment. Describes historical and recent trends in environmental flow assessment Directly addresses practical difficulties with applying a scientifically informed approach in contentious circumstances Serves as an effective introduction to the relevant literature, with many references to articles in related scientific fields Pays close attention to statistical issues such as sampling, estimation of statistical uncertainty, and model selection Includes recommendations for methods and approaches Examines how methods have been tested in the past and shows how they should be tested today and in the future Environmental Flow Assessment: Methods and Applications is an excellent book for biologists and specialists in allied fields such as engineering, ecology, fluvial geomorphology, environmental planning, landscape architecture, along with river managers and decision makers.

Download or read book Selected Water Resources Abstracts written by and published by . This book was released on 1991 with total page 1354 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Predictions in Ungauged Basins written by Murugesu Sivapalan and published by . This book was released on 2006 with total page 534 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Streamflow Characteristics written by H.C. Riggs and published by Elsevier. This book was released on 1985-01-01 with total page 263 pages. Available in PDF, EPUB and Kindle. Book excerpt: Reliable estimates of streamflow characteristics are needed for planning, design, and operation of works for providing water supplies and for protection from flooding. This book brings together some of the most useful estimation methods - those that are simple, practical, and require only commonly available or readily obtainable data, and which give results comparable in accuracy with those derived from more sophisticated methods. The author describes how streamflow data are collected, how the characteristics are computed, how they are changed by man's activities, and how they are used in planning and design. Chapters describing statistical principles and techniques, and the effects of various climatic and physiographic factors on streamflow are included. The analytical methods are described in sufficient detail that the reader can apply them to his data. Further applications and other techniques are referred to in bibliographies.

Download or read book Urban Stormwater Management in the United States written by National Research Council and published by National Academies Press. This book was released on 2009-03-17 with total page 611 pages. Available in PDF, EPUB and Kindle. Book excerpt: The rapid conversion of land to urban and suburban areas has profoundly altered how water flows during and following storm events, putting higher volumes of water and more pollutants into the nation's rivers, lakes, and estuaries. These changes have degraded water quality and habitat in virtually every urban stream system. The Clean Water Act regulatory framework for addressing sewage and industrial wastes is not well suited to the more difficult problem of stormwater discharges. This book calls for an entirely new permitting structure that would put authority and accountability for stormwater discharges at the municipal level. A number of additional actions, such as conserving natural areas, reducing hard surface cover (e.g., roads and parking lots), and retrofitting urban areas with features that hold and treat stormwater, are recommended.

Download or read book Ecohydrology written by Peter S. Eagleson and published by Cambridge University Press. This book was released on 2005-02-17 with total page 485 pages. Available in PDF, EPUB and Kindle. Book excerpt: This volume investigates how the physical characteristics and productivity of forest communities are related to the climates and soils in which they are found. It will provide fascinating reading for graduate-level students and research scientists working in ecohydrology, hydroclimatology, forest ecology, and surface water hydrology.