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Geometric Morphometrics

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Title: Andries van Dam September 5, 2000 Introduction to Computer Graphics 1/7 Author: keqin Last modified by: Jian Chen Created Date – PowerPoint PPT presentation

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Title: Geometric Morphometrics


1
Geometric Morphometrics
Lecturer Dr. Keqin Wu
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To do
  • work on programming assignment 2
  • Continue to think about final project
  • Form final group

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Geometric MorphologyWhat is it?
  • Deals with the study of shape

Morphing the Armadillo model
(Funck 2006)
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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Set Operations
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As-Rigid-As-Possible Shape Manipulation
  • T. Igarashi, T. Mascovich, J. F. Hughes
  • Presented in SIGGRAPH 2005

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Demo
  • http//www.youtube.com/watch?v1M_oyUEOHK8

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Deformable Models in Image Analysis
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Mathematical Foundations
  • Geometry
  • Physics
  • Approximation theory

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Mathematical Foundations
  • Geometry
  • Broad shape coverage by employing geometric
    representations that involve many degrees of
    freedom, such as splines.
  • The model remains manageable because the degrees
    of freedom are generally not permitted to evolve
    independently

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Mathematical Foundations
  • Physics
  • The physical interpretation views deformable
    models as elastic bodies which respond naturally
    to applied forces and constraints.
  • The energy grows monotonically as the model
    deforms away from a specified natural or rest
    shape
  • Often includes terms that constrain the
    smoothness or symmetry of the model
  • The deformation energy gives rise to elastic
    forces internal to the model.

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Deformable model geometry
  • Approximation theory
  • In physics-based view of classical optimal
    approximation, external potential energy
    functions are defined in terms of the data of
    interest to which the model is to be fitted.
  • These potential energies give rise to external
    forces which deform the model such that it fits
    the data

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Image Analysis with Deformable Models
  • Medical image interpretation tasks include
    segmentation, matching, and motion analysis.

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Snakes Active Contour Models (MICHAEL KASS,
1988)
  • A snake is an energy-minimizing spline
    guided by external constraint forces and
    influenced by image forces that pull it
    toward features such as lines and edges.
  • The interface allows a user to select starting
    points and exert forces on snakes interactively
    as they minimize their energy.

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Image Segmentation with Deformable Curve
  • Algorithm
  • Initial Points defined around Feature to be
    extracted
  • Explicitly defined
  • Approximation of an Ellipse
  • Pre-defined number of Points generated
  • Points are moved through an Iterative Process
  • Energy Function for each point in the Local
    Neighbourhood is calculated
  • Move to point with lowest Energy Function
  • Repeat for every point
  • Iterate until Termination Condition met
  • Defined number of iterations
  • Stability of the position of the points

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Volume Image Segmentation with Deformable
Surfaces
  • Medical image interpretation tasks including
    segmentation, matching, and motion analysis.
  • On matching deformable models to images. (D.
    Terzopoulos, 1986)

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Matching
  • Matching of regions in images can be performed
    between
  • the representation of a region and a model
    (labeling) or be- tween the representation of two
    distinct regions (registration).
  • Incorporating Priori Knowledge
  • Deformable atlas technique

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Deformable atlas technique
A General Scheme for Automatically Building 3D
Morphometric Anatomical Atlases application to a
Skull Atlas (Ge rard Subsol, 1995)
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Deformable atlas technique
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Deformable atlas technique
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Motion Tracking and Analysis
  • Vector Field Based Shape Deformations (Wolfram
    von Funck 2006) Demo

Feb 27, 2013 Geometric Morphologyd
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