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Brain Warping
 
 

Brain Warping, 1st Edition

 
Brain Warping, 1st Edition,Arthur Toga,ISBN9780126925357
 
 
 

A Toga   

Academic Press

9780126925357

9780080525549

385

279 X 216

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Key Features

@introbul:Key Features
@bul:* The only book of its kind
* Subject matter is the fastest growing area in the field of brain mapping
* Presents geometrically-based approaches to the field of brain mapping
* Discusses intensity-based approaches to the field of brain mapping

Description

Brain Warping is the premier book in the field of brain mapping to cover the mathematics, physics, computer science, and neurobiological issues related to brain spatial transformation and deformation correction. All chapters are organized in a similar fashion, covering the history, theory, and implementation of the specific approach discussed for ease of reading. Each chapter also discusses the computer science implementations, including descriptions of the programs and computer codes used in its execution. Readers of Brain Warping will be able to understand all of the approaches currently used in brain mapping, incorporating multimodality, and multisubject comparisons.

Readership

Neuroscientists, academic neurologists, and "mappers"; students, researchers, and laboratory staff involved in the study of the brain.

Arthur Toga

Affiliations and Expertise

University of California, Los Angeles, U.S.A.

View additional works by Arthur W. Toga

Brain Warping, 1st Edition

Overview:
A.W. Toga, An Introduction to Brain Warping.
J. Ashburner and K. Friston, Spatial Normalization.
Intensity Based Approaches:
R. Bajcsy, Elastic Deformation Utilizing a Mechanical System.
S. Kovacic, Multi-Resolution; Multiscale Approaches.
S. Warfield, A. Robatino, J. Dengler, F. Jolesz, and R. Kikinis, Nonlinear Registration and Template Driven Segmentation.
G. Christensen, M.I. Miller, and S.C. Joshi, Bayesian Framework for Image Registration Using Eigenfunctions.
J. Gee, Finite Element Methods.
M. Miller, S.C. Joshi, and G.E. Christensen, Large Deformation Fluid Diffeomorphisms for Landmark and Image Matching.
D.L. Collins and A.C. Evans, ANIMAL: Automatic Nonlinear Image Matching and Anatomical Labeling.
J.-P. Thirion, Diffusing Models and Applications.
F.L. Bookstein, Linear Methods for Nonlinear Maps.
H. Mueller and D. Ruprecht, Spatial Interpolants for Warping.
M.W. Vannier, Global Pattern Matching.
G. Subsol, Crest-Lines for Curve Based Warping.
D. Terzopolous, Snakes in Warping and Matching.
J.H. Downs III, J.L. Lancaster, and P.T. Fox, Surface Based Spatial Normalization Using Convex Hulls.
S. Lavallee, E. Bittar, and R. Szeliski, Elastic Registration and Inference Using Octree-Splines.
J.W. Haller, Brain Templates.
P. Thompson and A.W. Toga, Anatomically-Driven Strategies for High-Dimensional Brain Image Warping and Pathology Detection.
H. Drury, D.C. Van Essen, M. Corbetta, and A. Z. Snyder, Surface-Based Analyses of the Human Cerebral Cortex.
R.P. Woods, Automated Global Polynomial Warping.
Subject Index.
 
 
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