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CS292 Computational Vision and Language

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Title: CS292 Computational Vision and Language


1
CS292 Computational Vision and Language
  • Segmentation and Region Detection

2
(No Transcript)
3
Introduction
  • All pixels belong to a region, which can be
  • an object
  • part of object
  • background
  • Find region
  • By finding constituent pixels in a region
  • By finding boundary pixels

4
Image Segmentation Task
  • To divide the image into regions or segments,
    each of which is in some sense homogeneous, but
    the union of adjacent segments is not homogeneous
    in the same sense.
  • Homogeneity here is characterized by some
    properties like
  • smoothly varying intensity, similar statistics,
    or colour.

5
Region Detection
  • A set of pixels P
  • An homogeneity predicate H(P)
  • Partition P into regions R, such that

6
Image Segmentation
  • Many techniques including
  • Non-contextual technique thresholding
  • Contextual techniques
  • region-based
  • connectivity-preserving relaxation methods.
  • Other methods Image primitive based
  • Mixture of all these

7
Threshold techniques
  • make decisions based on local pixel information
  • are effective when the intensity levels of the
    objects fall squarely outside the range of levels
    in the background.

8
Global thresholds
  • Compute threshold from whole image
  • Incorrect in some regions

9
Local thresholds
  • Divide image into regions
  • Compute threshold per region
  • Merge thresholds across region boundaries

10
Contextual techniques
  • Contextual techniques take into account the fact
    that pixels belonging to a single object are
    close to one another.
  • Approaches to contextual segmentation are based
    on the concept of discontinuity or concept of
    similarity.
  • detecting abrupt changes- edge detection
    techniques,
  • or to create uniform regions directly,
  • Discontinuity and similarity approaches mirror
    one another, in the sense that completion of
    boundary is equivalent to breaking one region
    into two.

11
Region Growing
  • All pixels belong to a region
  • Select a pixel
  • Grow the surrounding region
  • (we will practise this in lab class)

12
Slow Algorithm
  • If a pixel is
  • not assigned to a region
  • adjacent to region
  • has colour properties not different to regions
  • Then
  • Add to region
  • Update region properties

13
Split and Merge
  • Initialise image as a region
  • While region is not homogeneous
  • split into quadrants and examine homogeneity

14
Recursive Splitting
  • Split(P)
  • If (!H(P))
  • P ? subregions 1 4
  • Split (subregion 1)
  • Split (subregion 2)
  • Split (subregion 3)
  • Split (subregion 4)

15
Recursive Merging
  • If adjacent regions are
  • weakly split
  • weak edge, depending on defined criteria
  • similar
  • similar greyscale/colour properties
  • Merge them

16
Edge Following
  • Detection
  • finds candidate edge pixels
  • Following
  • links candidates to form boundaries

17
Representing Regions
  • Constituent pixels
  • Boundary pixels

18
Based on both regions and edges
19
Based on the combination of colour and texture
20
Active Contour Model- Snake
  • A connectivity-preserving relaxation-based
    segmentation method, - active contour model
    snake
  • The main idea is to start with some initial
    boundary shape represented in the form of spline
    curves, and iteratively modify it by applying
    various shrink/expansion operations according to
    some energy function.
  • Concepts involved
  • Image gradient
  • Smooth operation
  • Histogram equalization
  • Energy functions

21
Snakes, Active/Dynamic Contours
  • Borders follow outline of object
  • Outline obscured?
  • Snake provides a solution

22
Algorithm
  • Snake computes smooth, continuous border
  • Minimises
  • length of border
  • curvature of border
  • Against an image property
  • gradient?

23
Minimisation
  • Initialise snake
  • Integrate energy along it
  • Iteratively move snake to global energy minimum

24
Active Contour Method
Case study next week, notes will be given during
the lecture
25
Summary
  • Image segmentation
  • Region detection
  • growing
  • edge following
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