ECE-537 Digital Image Processing - PowerPoint PPT Presentation

1 / 61
About This Presentation
Title:

ECE-537 Digital Image Processing

Description:

Implement an Independent DIP Project Which Demonstrates ... Mensuration. Movement. Feature extraction. 9/6/09. K. Hintz, 1996-2002. 24. Analog Image Processing ... – PowerPoint PPT presentation

Number of Views:536
Avg rating:3.0/5.0
Slides: 62
Provided by: FAME3
Category:

less

Transcript and Presenter's Notes

Title: ECE-537 Digital Image Processing


1
ECE-537Digital Image Processing
  • Prof. K. J. Hintz
  • http//cpe.gmu.edu/khintz
  • http//cpe.gmu.edu/

2
Course Objectives
  • Develop an Understanding of Basic Image
    Processing Techniques Through Lecture, Study, and
    Exercises
  • Develop a Fluency With a Digital Image Processing
    (DIP) Software Package, e.g., Cantata, Through
    Experience
  • Implement an Independent DIP Project Which
    Demonstrates Your Ability to Integrate the
    Mathematical Theory With the Practical Issues

3
Milestone Chart
4
Khoros Image Processing Software
  • Composer
  • Toolboxes
  • Cantata (our primary interest)
  • Workspaces for interactive DIP programming
  • Glyph-based scripting language
  • Workspaces are in ASCII text format

5
Image Processing Software
  • Khoros Will Be Installed Soon on iris.gmu.edu
  • Class List Will Be Given to Computer
    Administrator to Put in Group for Access to
    Software
  • Students can get combination to ST-II room ___
    to have access at non-class times
  • Khoros can be run effectively on a sufficiently
    powerful PC running the Linux operating system
  • Windows version requires Xwin32 X

6
Khoros Availability
  • Students wishing to use Khoros at home can
    download the student version from the Khoros web
    site at no charge
  • Build it yourself, straightforward
  • http//www.khoral.com/khoros/kp2001_student/
  • Binaries available from Amazon for 30

7
Linux Operating System
  • PC based, x86
  • The more RAM the better
  • Linux can be downloaded free
  • http//www.ibiblio.org/pub/Linux/distributions/
  • Various distributions available on CDROM (40)
    with various levels of support

8
Linux Components Needed to Install/Use Khoros
  • gzip
  • ANSI-C compiler, e.g., gcc
  • X-Windows (X11R4, R5, or R6) Software Development
    Environment, e.g., XFree86
  • Athena, Motif, or OLIT widget set
  • Lex YaCC (or bison flex)
  • Optional
  • perl
  • groff (needs C compiler)
  • Fortran Compiler or f2c (matrix geometry TB)

9
Useful Free Linux Software
  • GIMP
  • GNU Image Manipulation Program
  • XV
  • Display images
  • Image format conversion
  • Color manipulation
  • Some image processing operators
  • Smooth
  • Dither
  • Enlarge
  • Oil paint

10
Digital Image
  • N-Dimensional Data, Not Necessarily Visual Image
  • Passive Sensors
  • Infrared
  • Ultraviolet
  • Visual
  • Multi-spectral, hyper-spectral
  • State of point
  • Active Sensors
  • Imaging radars
  • Synthetic aperture radar (SAR)
  • X-ray

11
Passive Sensor Data
  • Infrared
  • Single-band/Dual-band
  • 3-5 micron and/or 8-12 micron wavelength
  • Greyscale image
  • Ultraviolet
  • Visual
  • Greyscale
  • HSI

12
Passive Sensor Data
  • Multi-spectral, hyper-spectral
  • Each pixel is n-dimensional vector
  • Subdivides sensor bandwidth with narrow-band
    filters
  • State of point

13
IR Images of Clouds

Near-IR, 3-5 ?
Far-IR, 8-12 ?
14
UV Image of Foraminifera
15
Visual Image, BW vs. Color

Same spatial resolution
20 kByte
29 kByte
16
Digital Image
  • Computed Data
  • Function representation
  • Visualization of complex functions, e.g.,
    Mandelbrot set
  • Virtual reality
  • Fabric draping

17
Active Sensor Data
  • Imaging Radars
  • 95 GHz gt ? 1/8 inch
  • Frequency chosen based on atmospheric absorption
    bands
  • (Inverse) Synthetic Aperture Radar ((I)SAR)
  • Multiple measurements from long baseline of
    moving sensor
  • ISAR uses movement of target
  • X-ray

18
SAR Image of Airport

Synthetic Aperture Radar
19
X-Ray MRI
Khoros
20
Digital Image
  • Quantized
  • Amplitude
  • Intensity
  • Absorption
  • Numerical value (magnitude)
  • Color or pseudo-color
  • Signal strength
  • Spatially (Khoros notation)
  • Height in rows
  • Width in columns

21
Synchronous Amplitude Quantization

22
Spatial Quantization

23
Processing vs. Analysis
  • Digital Image Processing (DIP)
  • manipulation of images by computer
  • Texture and edges
  • Segmentation
  • Enhancement
  • Mensuration
  • Movement
  • Feature extraction

24
Analog Image Processing
  • Analog Image Processing
  • Optical SAR, Fourier transform
  • Film processing
  • Image summation
  • Color, e.g., TV RGB

25
Processing vs. Analysis
  • Image Analysis
  • Pattern recognition
  • Automatic control
  • Content
  • Operates on features or symbolic representation
  • Optical character recognition (OCR)
  • Handwriting
  • Intelligence

26
Fractal Dimension of IR Clouds

27
Character Recognition
Extract Rotate Segment Classify Parseno
28
Image Spatial Manipulation
Matlab Example
29
Foreground/Background

Marr, Computer Vision
30
Foreground/Background
31
Digital Image Processing
  • Digital Image
  • ...a sampled, quantized function of two
    dimensions that has been generated by optical
    means, sampled in an equally spaced rectangular
    grid pattern, and quantized in equal intervals of
    amplitude.
  • Processing
  • ...starts with one image and produces a modified
    version of that image without interpreting it

32
Discrete vs. Continuous Approaches
  • Image Consists of Discrete Points
  • Each pixel is a unique, independent entity
  • Process points rather than entities in image
  • e.g., calibration of column of individual
    detectors used to generate image
  • Assumes no underlying continuous process

33
Discrete vs. Continuous Approaches
  • Continuous Approach
  • Underlying process is continuous, e.g., optical
    image of real object
  • Processing mathematics are continuous with a
    discrete approximation, e.g, Fourier Transform
    and DFT

34
Digital Processing of Images
  • Completely Accurate Only when Original Data is
    Quantized and Output is Quantized
  • Usually Done for Convenience
  • Digital Image is Approximation of Real,
    Continuous Image
  • Digital Operations are Approximations of
    Continuous Mathematical Processes

35
Processing Artifacts
  • Approximate Operations on Approximate Images can
    Yield Sampling Effects
  • Moiré pattern (continuous also)
  • Ragged edges
  • Gibbs phenomenon

36
Gibbs Phenomenon
  • Insufficient Bandwidth to Completely Represent
    Edge
  • Simulated by
  • Discrete Fourier transform
  • Discard high frequency spectral lines
  • Inverse DFT
  • Results in Ringing Near Edges

Ziemer, Tranter, Fannin, Signals and Systems
Continuous and Discrete, Macmillan, 1989.
37
Square-in-Square Cantata Workspace

38
Gibbs Phenomenon Workspace

39
Expansion of S-in-S Glyph

40
Inset Glyph Menu Pane

41
PSD of S-in-S

42
Interactive Thresholding

43
Gibbs Phenomenon

44
Unified DIP Approach
  • Characterize Effect of DIP from Knowledge of
    Continuous Forms Behavior
  • A/D --gt Process --gt D/A Without Loss or
    Significant Degradation of Content of Interest
  • Sampling and DIP Artifacts
  • Predict their occurrence
  • Recognize them when they occur
  • Eliminate or minimize their deleterious effects

45
DIP is Multidisciplinary
  • Preparation of Object to be Imaged
  • Stain used for tissue (biology)
  • Illumination (photography)
  • X-ray energy and energy spectra (physics)
  • Selection of amplitude and spatial resolution
    (communications)

46
DIP is Multidisciplinary
  • Digitizing the Image
  • Equipment selection (CCD, near-IR, far-IR, x-ray,
    etc.)
  • Signal-to-noise ratio (communication theory)
  • Full dynamic range of resulting image and bias
    errors (A/D converters, amplifiers, electronics)
  • Purpose for images (end user)

47
Image-to-Image Consistency
  • Amplitude calibration
  • Grey-scale charts
  • Visual scenes
  • Stepped wedges
  • X-ray absorption images
  • Black-body
  • Spectrum proportional to T4
  • Hot body, cold body calibrate endpoints
  • Multi-spectral

48
Image-to-Image Consistency
  • Spatial calibration
  • Fiducial marks
  • INF Treaty X-Ray example
  • Easily identifiable features
  • Crosses on roadways for satellite landmapping
  • Known geometry of acquisition system and scene
  • Structured light example

49
Image-to-Image Consistency
  • Image-to-Image Consistency
  • Temporal imaging
  • Intelligence analysis, airplanes in/out of
    airport
  • Velocity estimation
  • Database change
  • Image registration
  • Anomaly detection
  • Known clutter removal

50
Image-to-Image Consistency
  • Clutter Removal (image next slide)
  • Real signals, not noise
  • Characteristics of clutter
  • Statistical properties
  • Shape
  • Random
  • Geometric
  • Distinctive features

51
Detect Scalloped Lilly Leaves
52
DIP is Multidisciplinary
  • Processing
  • End user
  • What does the user want as a result of the
    processing
  • What techniques can be applied (mathematics)
  • Real-time or batch
  • Numerical analysis
  • Data type conversions
  • Numerical processing errors
  • Roundoff
  • Truncation
  • Order of computations

53
DIP is Multidisciplinary
  • Display DIP Results
  • Impedance matching
  • Response of human eye and limitations
  • physiology, pseudo-coloring
  • Human signal processing capability
  • psychology
  • Still or motion
  • weather map with fronts satellite

54
DIP Functional Requirements
  • Sufficient Spatial Sampling Resolution to Have
    Multiple Pixels on the Feature of Interest
  • Best Signal-to-Noise
  • Fast, Large RAM/HD Computer
  • High-Quality, Color Display

55
DIP Functional Requirements
  • User-Friendly, Mathematically Correct and
    Verified Software
  • Ease of Documentation
  • Modularized to Ease Task of Explaining Processing
    to Others

56
Homework/Project Data
  • Each student assigned an image
  • Homeworks done plus principles of HW applied to
    assigned image
  • Color result presented each week to class
  • Semester project based on assigned images or
    negotiated alternative

57
Available Data Sets
  • Foraminifera
  • Separate forams from other objects
  • Large images

UV
Visible
58
Automatic Foram Extraction
59
Available Data Sets
  • Ground Penetrating Radar Data
  • Volumetric processing
  • Image processing downrange/crossrange
  • High resolution images
  • Clutter removal
  • MTF

60
GPR DeMine program
61
Available Data Sets
  • Handwritten Character Data Set
  • High-resolution X-Ray images
  • 9-track tape
  • IR images of sea clutter
  • Visual images
  • Hyperspectral Satellite Imagery
  • On Web
Write a Comment
User Comments (0)
About PowerShow.com