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Statistical Techniques for Neuroscientists

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advanced neural spike train analysis
ARMA Model
Bold Response
BSS
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Children Children Children Children Children
Conditional Intensity Function
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Fast Fourier Transform
fMRI Data
functional brain connectivity
Group Lasso Method
Group Level Components
Group Structure
Hemodynamic Response
ICA
ICA Algorithm
Independent Component Analysis
ISI
Jth Diagonal Entry
multichannel electrophysiology
neural data analysis
Neural Spike Train
Neuroimaging Data Analysis
point process modeling
Real Data
Spatial Maps
spatiotemporal statistics
Spike Train
Splines
Stochastic Em Algorithm
supervised dimensionality reduction
Supervised Learning
Temporal Courses
TFE
Time Series
Unmixing Matrix
Wavelets Analysis
WLS Estimate

Product details

  • ISBN 9781466566149
  • Weight: 997g
  • Dimensions: 156 x 234mm
  • Publication Date: 12 Aug 2016
  • Publisher: Taylor & Francis Inc
  • Publication City/Country: US
  • Product Form: Hardback
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Description

Statistical Techniques for Neuroscientists introduces new and useful methods for data analysis involving simultaneous recording of neuron or large cluster (brain region) neuron activity. The statistical estimation and tests of hypotheses are based on the likelihood principle derived from stationary point processes and time series. Algorithms and software development are given in each chapter to reproduce the computer simulated results described therein.

The book examines current statistical methods for solving emerging problems in neuroscience. These methods have been applied to data involving multichannel neural spike train, spike sorting, blind source separation, functional and effective neural connectivity, spatiotemporal modeling, and multimodal neuroimaging techniques. The author provides an overview of various methods being applied to specific research areas of neuroscience, emphasizing statistical principles and their software. The book includes examples and experimental data so that readers can understand the principles and master the methods.

The first part of the book deals with the traditional multivariate time series analysis applied to the context of multichannel spike trains and fMRI using respectively the probability structures or likelihood associated with time-to-fire and discrete Fourier transforms (DFT) of point processes. The second part introduces a relatively new form of statistical spatiotemporal modeling for fMRI and EEG data analysis. In addition to neural scientists and statisticians, anyone wishing to employ intense computing methods to extract important features and information directly from data rather than relying heavily on models built on leading cases such as linear regression or Gaussian processes will find this book extremely helpful.
About

Young K. Truong, PhD, is a professor in the Department of Biostatistics at the University of North Carolina at Chapel Hill, USA. He earned his BS in mathematics with Baccalaureate Honors at the University of Washington, Seattle, in 1978 and his MA (1980) and PhD (1985) degrees in statistics from the University of California, Berkeley, USA. He has published extensively, is the recipient of many prestigious awards, and is an often-invited professional speaker and presenter.