This interdisciplinary volume features contributions from researchers in the fields of psychology, neuroscience, statistics, computer science, and physics. State-of-the-art techniques and applications used to analyze data obtained from studies in cognition, emotion, and electrophysiology are reviewed along with techniques for modeling in real time and for examining lifespan cognitive changes, for conceptualizing change using item response, nonparametric and hierarchical models, and control theory-inspired techniques for deriving diagnoses in medical and psychotherapeutic settings. The syntax…mehr
This interdisciplinary volume features contributions from researchers in the fields of psychology, neuroscience, statistics, computer science, and physics. State-of-the-art techniques and applications used to analyze data obtained from studies in cognition, emotion, and electrophysiology are reviewed along with techniques for modeling in real time and for examining lifespan cognitive changes, for conceptualizing change using item response, nonparametric and hierarchical models, and control theory-inspired techniques for deriving diagnoses in medical and psychotherapeutic settings. The syntax for running the analyses presented in the book is provided on the Psychology Press site. Most of the programs are written in R while others are for Matlab, SAS, Win-BUGS, and DyFA. Readers will appreciate a review of the latest methodological techniques developed in the last few years. Highlights include an examination of: Statistical and mathematical modeling techniques for the analysis of brain imaging such as EEGs, fMRIs, and other neuroscience data Dynamic modeling techniques for intensive repeated measurement data Panel modeling techniques for fewer time points data State-space modeling techniques for psychological data Techniques used to analyze reaction time data. Each chapter features an introductory overview of the techniques needed to understand the chapter, a summary, and numerous examples. Each self-contained chapter can be read on its own and in any order. Divided into three major sections, the book examines techniques for examining within-person derivations in change patterns, intra-individual change, and inter-individual differences in change and interpersonal dynamics. Intended for advanced students and researchers, this book will appeal to those interested in applying state-of-the-art dynamic modeling techniques to the the study of neurological, developmental, cognitive, and social/personality psychology, as well as neuroscience, computer science, and engineering.
Sy-Miin Chow is Assistant Professor of Psychology at the University of North Carolina at Chapel Hill. She received her Ph.D. in Quantitative Psychology from the University of Virginia. Her research focuses on the development and adaptation of modeling and analysis tools for evaluating linear and nonlinear dynamical systems models. Dr. Chow received the prestigious Dissertation Award from the Society of Multivariate Experimental Psychology in 2004. Emilio Ferrer is Associate Professor of Psychology at the University of California, Davis. He received his Ph.D. in Quantitative Psychology from the University of Virginia. His research focuses on methods techniques for studying change and intra-individual variability in developmental processes. Dr. Ferrer received the prestigious Dissertation Award from the Society of Multivariate Experimental Psychology in 2002. Fushing Hsieh is Professor of Statistics at the University of California, Davis. He received his Ph.D. in Statistics from Cornell University. Dr. Hsieh's research focuses on survival analysis, modeling in biomedical dynamic systems and in animal behavior, evolutionary ecology and aging, and the analysis of cognitive processing. A frequent contributor to Biometrika and the Journal of the Royal Statistical Society Series B, Dr. Hsieh served as an Associate Editor of Statistica Sinica from 1998 until 2005.
Inhaltsangabe
Introduction and Section Overview. Part 1. Parametric and Exploratory Approaches for Extracting Within-Person Nonstationarities. P.C.M. Molenaar N. Ram Dynamic Modeling and Optimal Control of Intra-Individual Variation: A Computational Paradigm for Non-Ergodic Psychological Processes. M. Tarvainen Dynamic Spectral Analysis of Biomedical Signals with Application to EEG and Heart Rate Variability. B. Gao H. Ombao M.R. Ho Cluster Analysis for Non-Stationary Time Series. R. Prado Characterizing Latent Structure in Brain Signals. H. Ombao R. Prado A Closer Look at Two Approaches for Analysis and Classification of Non-Stationary Time Series. Part 2. Representing and Extracting Intraindividual Change. S. Boker P.R. Deboeck C. Edler P. Keep Generalized Local Linear Approximation of Derivatives from Time Series. P.R. Doebeck S.M. Boker Unbiased Smoothing-Corrected Estimation of Oscillators in Psychology. P.F. Craigmile M. Peruggia T. Van Zandt Detrending Response Times Series. G. Zhang M.W. Browne Dynamic Factor Analysis with Ordinal Manifest Variables. R.P. Bowles Measuring Intraindividual Variability with Intratask Change Using Item Response Models. Part 3. Modeling Interindividual Differences in Chang and Interpersonal Dynamics. R. Cudeck J. Harring Developing a Random Coefficient Model for Nonlinear Repeated Measures Data. F. Hamagami Z.J. Zhang J. McArdle A Bayesian Discrete Dynamic System by Latent Difference Score Structural Equations Models for Multivariate Repeated Measures Data. L. Wang Z. Zhang R. Estabrook Longitudinal Mediation Analysis of Training Intervention Effects. F. Hsieh S. Chen S. Chow E. Ferrer Exploring Intra-Individual Inter-Individual and Inter-Variable Dynamics in Dyadic Interactions.
Introduction and Section Overview. Part 1. Parametric and Exploratory Approaches for Extracting Within-Person Nonstationarities. P.C.M. Molenaar N. Ram Dynamic Modeling and Optimal Control of Intra-Individual Variation: A Computational Paradigm for Non-Ergodic Psychological Processes. M. Tarvainen Dynamic Spectral Analysis of Biomedical Signals with Application to EEG and Heart Rate Variability. B. Gao H. Ombao M.R. Ho Cluster Analysis for Non-Stationary Time Series. R. Prado Characterizing Latent Structure in Brain Signals. H. Ombao R. Prado A Closer Look at Two Approaches for Analysis and Classification of Non-Stationary Time Series. Part 2. Representing and Extracting Intraindividual Change. S. Boker P.R. Deboeck C. Edler P. Keep Generalized Local Linear Approximation of Derivatives from Time Series. P.R. Doebeck S.M. Boker Unbiased Smoothing-Corrected Estimation of Oscillators in Psychology. P.F. Craigmile M. Peruggia T. Van Zandt Detrending Response Times Series. G. Zhang M.W. Browne Dynamic Factor Analysis with Ordinal Manifest Variables. R.P. Bowles Measuring Intraindividual Variability with Intratask Change Using Item Response Models. Part 3. Modeling Interindividual Differences in Chang and Interpersonal Dynamics. R. Cudeck J. Harring Developing a Random Coefficient Model for Nonlinear Repeated Measures Data. F. Hamagami Z.J. Zhang J. McArdle A Bayesian Discrete Dynamic System by Latent Difference Score Structural Equations Models for Multivariate Repeated Measures Data. L. Wang Z. Zhang R. Estabrook Longitudinal Mediation Analysis of Training Intervention Effects. F. Hsieh S. Chen S. Chow E. Ferrer Exploring Intra-Individual Inter-Individual and Inter-Variable Dynamics in Dyadic Interactions.
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