Beschreibung:
System Identification, Environmetric Modelling, and Control Systems Design is dedicated to Professor Peter Young on the occasion of his seventieth birthday. Professor Young has been a pioneer in systems and control, and over the past 45 years he has influenced many developments in this field.
Data-Based Mechanistic Modelling.- A Minimum Distortion Nonlinear Filtering Approach to System Identification at Fast Sampling Rates.- How Accurate Can Instrumental Variable Models Become? - Averaging Analysis of Adaptive Algorithms Made Simple.- Identifiability and Beyond.- Graphs for Dependence and Causality in Multivariable Time Series.- Optimal refined instrumental variable methods for identification of LPV output-error and box Jenkins models.- An IV based Iterative Linear Regression Algorithm with Optimal Output Error Properties.- Box-Jenkins Seasonal Models.- On Estimating Transfer Functions with Non-linearities in the Input.- State Dependent Regressions and Smoothing Spline ANOVA Models.- Error and Uncertainty in the Structure of a Model: a Philosophical Perspective.- Problems with Parametric Models.- Multi-state Dependence Parameter Model Identification and Estimation.- System Identification in Phloem Physiology.- Teaching Modelling and Hydrological Concepts using IHACRES-TAMBO.- Removal of Resuscitation Artifacts from Human ECG Signals.- Construction of Radial Basis Function Networks with Diversified Topologies.- State Dependent Parameter Models and Control.- Iterative Learning Control: Engineering and Human Centered Applications.- Event-driven Predictive Control with Constraints.- Linear Non-minimal State Space Control.- An Operational Application of DBM Catchment Modelling for Real-time Flood Forecasting.- Analyzing the Complexity of Hydrologic Systems using a Data-based Mechanistic Approach.- Modelling and Analysis of Environmental Systems without Time-series Data.- The Identification and Control Challenges of Water Resource Managementon a Basin Scale.- Application of Optimal Non-stationary Time Series Analysis to Water Quality and Pollutant Transport Modelling.- Modelling Strategies for Prediction of the Effects of Land Use and Land Management Change.- Bayesian Total Error Analysis in Hydrological Modelling.-Modelling for Control Design of Rivers.- Advances in Integrated Planning and Management of Water Quantity and Quality in Lakes and Reservoirs.- Application of the Aggregated Dead Zone Model of Fluvial Transport of Solutes to Large Rivers.- Chaos Theory for Modelling Environmental Systems: Philosophy and Pragmatism.- Dynamic Data-based Modelling as basis for Controlling and Understanding Biological Systems.- Electrical Demand Modeling and Forecast using State Dependent Parameter Models.