Reston, Va., : American Society of Civil Engineers, c2006

0-7844-7170-3

1 online resource (875 p.)

SpauldingMalcolm L

551.46/18015118

Estuaries - Mathematical models

Coast changes - Mathematical models

Hydrodynamics - Mathematical models

Water quality - Mathematical models

Sediment transport - Mathematical models

Electronic books.

Inglese

Papers presented at the 9th International Conference on Estuarine and Coastal Modeling.

Includes bibliographical references and indexes.

""Cover""; ""Contents""; ""Estuarine and Coastal Models I""; ""A Salinity Management Model for Restoration of a Coastal Riverine Ecosystem""; ""Charleston Harbor System 3-Dimensional Modeling, Charleston, SC""; ""Climatology and Skill Assessment  I""; ""An SF[sub(6)] Tracer Experiment and Support Numerical Simulations in the Houston Ship Channel""; ""Multidimensional Modeling of the Lower Mississippi River""; ""Estuarine and Coastal Models  II""

""Using a Dynamically Coupled 3D-2DV Model to Simulate Hydrodynamics in the Lower Peace River Upper Charlotte Harbor System in Southwest Florida""""Cape Fear River Estuary Plume Modeling: Model Configuration and Sensitivity Experiments""; ""Comparison of Turbulence Models with Use of UnTRIM in the Delaware Bay""; ""Climatology and Skill Assessment  II""; ""Simulating Seasonal Variability of Circulation and Hydrography on the Scotian Shelf""; ""Monthly-Mean Circulation in the Flemish Cap Region: A Modeling

Study""; ""Estuarine and Coastal Models  III""

""Simulating Periodic Stratification in the San Francisco Estuary""""Particle Tracking, Residence Times, and Spill Analyses  I""; ""A Numerical Study of the Circulation and Drifter Trajectories in Cobscook Bay""; ""Application of Lagrangian-Based Transport Model to Estimate Pollutant Source Locations at Southport Harbor, Connecticut""; ""Estimating Spatially Varying Transport Times in a Shallow Water Environment Using a Numerical Hydrodynamic Model""; ""Estuarine and Coastal Models  IV""

""Effects of Thermal Stratification and Wind Blowing on Hydrodynamics in the Bohai Sea with Notably Shallow Depths""""Modeling the Effects of a Pumping Program for Increasing Water Circulation in a Semi-Enclosed Bay in the Stockholm Archipelago""; ""Circulation and Variability over the Meso-American Barrier Reef System: Application of a Triply Nested Ocean Circulation Model""; ""Biogeochemical Modeling  I""; ""Three-Dimensional Hydrodynamic and Water Quality Modeling of a Brackish Lake""; ""Modeling Enterococci in the Tidal Christina River""; ""Poster Session""

""Estimation of Residence Time in a Shallow Back Barrier Lagoon, Hog Island Bay, Virginia, USA""""Development of a Continuous Bathymetric/Topographic Unstructured Coastal Flooding Model to Study Sea Level Rise in North Carolina""; ""Simulation of Storm Surge Using Grid Computing""; ""Numerical Techniques, Structure, and Methods  I""; ""A Reaction-Based, Diagonalization Approach to Water Quality Modeling""; ""On the Form of the Momentum Equation and Lateral Stress Closure Law in Shallow Water Modeling""; ""Time Accuracy of Pressure Methods for Nonhydrostatic Free-Surface Flows""

""Efficiency and Accuracy of Non-Hydrostatic Modeling of Free-Surface Flows""

Singapore ; ; Hackensack, NJ, : World Scientific, c2007

1-281-12087-1

9786611120870

981-270-759-X

1 online resource (445 p.)

International series on advances in solid state electronics and technology

SchneiderMárcio Cherem

621.3815284

Metal oxide semiconductor field-effect transistors - Mathematical models

Field-effect transistors - Mathematical models

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Foreword; Preface; Contents; List of Selected Symbols; Chapter 1 Introduction; Chapter 2 The MOS Capacitor; Chapter 3 The Long-Channel MOSFET: Theory and dc Equations; Chapter 4 The Real MOS Transistor: dc Models; Chapter 5 Stored Charges and Capacitive Coefficients; Chapter 6 Mismatch Modeling; Chapter 7 Noise in MOSFETs; Chapter 8 High-Frequency Models; Chapter 9 Gate and Bulk Currents; Chapter 10 Advanced MOSFET Structures; Chapter 11 MOSFET Parameter Extraction; Chapter 12 Advanced MOSFET Models for Circuit Simulators; Appendix A Electrostatics in One Dimension

Appendix B Electrostatics in SemiconductorsAppendix C Drift-diffusion Current Model; Appendix D Continuity Equations; Appendix E Basics of pn Junctions; Appendix F Hall-Shockley-Read (HSR) Statistics; Appendix G Interface Trap Capacitance; Index

This is the first book dedicated to the next generation of MOSFET models. Addressed to circuit designers with an in-depth treatment that appeals to device specialists, the book presents a fresh view of compact modeling, having completely abandoned the regional modeling approach. Both an overview of the basic physics theory required to build compact MOSFET models and a unified treatment of

inversion-charge and surface-potential models are provided. The needs of digital, analog and RF designers as regards the availability of simple equations for circuit designs are taken into account. Compact ex