Noel Cressie, PhD, is Professor of Statistics and Director of the Program in Spatial Statistics and Environmental Statistics at The Ohio State University. A Fellow of the American Statistical Association and the Institute of Mathematical Statistics, he has published extensively in the areas of statistical modeling, analysis of spatial and spatio-temporal data, and empirical-Bayesian and Bayesian methods. He is a recipient of the R.A. Fisher Lectureship, awarded by COPSS to recognize the importance of statistical methods for scientific investigations. Dr. Cressie is an advisor for the Wiley Series in Probability and Statistics and the author of Statistics for Spatial Data, Revised Edition.

Chirstopher K. Wikle, PhD, is Professor of Statistics at the University of Missouri. Dr. Wikle is a Fellow of the American Statistical Association and the author of more than 100 articles on the topics of spatio-temporal methodology, spatial statistics, hierarchical models, Bayesian methods, and computational methods for large data sets. His work is motivated by problems in climatology, ecology, fisheries and wildlife, meteorology, and oceanography.

Preface.

Acknowledgments.

1 Space-Time: The Next Frontier.

2 Statistical Preliminaries.

2.1 Conditional Probabilities and Hierarchical Modeling (HM).

2.2 Inference and Diagnostics.

2.3 Computation of the Posterior Distribution.

2.4 Graphical Representations of Statistical Dependencies.

2.5 Data/Model/Computing Compromises.

3 Fundamentals of Temporal Processes.

3.1 Characterization of Temporal Processes.

3.2 Introduction to Deterministic Dynamical Systems.

3.3 Time Series Preliminaries.

3.4 Basic Time Series Models.

3.5 Spectral Representation of Temporal Processes.

3.6 Hierarchical Modeling of Time Series.

3.7 Bibliographic Notes.

4 Fundamentals of Spatial Random Processes.

4.1 Geostatistical Processes.

4.2 Lattice Processes.

4.3 Spatial Point Processes.

4.4 Random Sets.

4.5 Bibliographic Notes.

5 Exploratory Methods for Spatio-Temporal Data.

5.1 Visualization.

5.2 Spectral Analysis.

5.3 Empirical Orthogonal Function (EOF) Analysis.

5.4 Extensions of EOF Analysis.

5.5 Principal Oscillation Patterns (POPs).

5.6 Spatio-Temporal Canonical Correlation Analysis (CCA).

5.7 Spatio-Temporal Field Comparisons.

5.8 Bibliographic Notes.

6 Spatio-Temporal Statistical Models.

6.1 Spatio-Temporal Covariance Functions.

6.2 Spatio-Temporal Kriging.

6.3 Stochastic Differential and Difference Equations.

6.4 Time Series of Spatial Processes.

6.5 Spatio-Temporal Point Processes.

6.6 Spatio-Temporal Components-of-Variations Models.

6.7 Bibliographic Notes.

7 Hierarchical Dynamical Spatio-Temporal Models.

7.1 Data Models for the DSTM.

7.2 Process Models for the DSTM: Linear Models.

7.3 Process Models for the DSTM: Nonlinear Models.

7.4 Process Models for the DSTM: Multivariate Models.

7.5 DSTM Parameter Models.

7.6 Dynamical Design of Monitoring Networks.

7.7 Switching the Emphasis of Time and Space.

7.8 Bibliographic Notes.

8 Hierarchical DSTMs: Implementation and Inference.

8.1 DSTM Process: General Implementation and Inference.

8.2 Inference for the DSTM Process: Linear/Gaussian Models.

8.3 Inference for the DSTM Parameters: Linear/Gaussian Models.

8.4 Inference for the DSTM HM: Nonlinear/Non-Gaussian Models.

8.5 Bibliographic Notes.

9 Hierarchical DSTMs: Examples.

9.1 Long-Lead Forecasting of Tropical Pacific Sea Surface Temperatures.

9.2 Remotely Sensed Aerosol Optical Depth.

9.3 Modeling and Forecasting the Eurasian Collared Dove Invasion.

9.4 Mediterranean Surface Vector Winds.

Epilogue.

References.

Index.