Lectures:
Lecture 1 Intro: Included 3 slides on forensic analysis.
Lecture 2 Digital Images: Included four slides on colormapping and two on image scrambling.
Lecture 3 Point Processing: Added to explanations on slide 16.
Lecture 4 Color Perception: No changes other than date from 2006 to 2007.
Lecture 5 Color Correction: Added 19 slides on the color cube and on RGB vs HSV representation.
Lecture 6 Fourier Transform: Reversed the order of slides 85 and 86.
Lecture 7 Convolution: No changes other than date from 2006 to 2007.
Lecture 8 Frequency Filtering: Added slide on on ideal bandpass filter.
Lecture 9 Sharpening: No changes other than date from 2006 to 2007.
Lecture 10 Pixelization, Quantization: Added 12 slides on steganography (hiding one picture in another.)
Lecture 11 Sampling, Aliasing: Minor format changes.
Lecture 12 Resampling: Errors corrected on pp 34 & 108, 9 pages of examples added.
Lecture 13 Rotating: Added seven slides on interpolation and warping.
Lecture 14 Uncorrelated Noise: No changes other than date from 2006 to 2007.
Lecture 15 Correlated Noise: No changes other than date from 2006 to 2007.
Lecture 16 Median Filters: No changes other than date from 2006 to 2007.
Lecture 17 Binary Morphology: Slide 18 corrected. New slide (49) added. Minor changes (clarifications) made to 25 other slides.
Lecture 18 Grayscale Morphology: New slide (43) added.
Lecture 2 Digital Images: Included four slides on colormapping and two on image scrambling.
Lecture 3 Point Processing: Added to explanations on slide 16.
Lecture 4 Color Perception: No changes other than date from 2006 to 2007.
Lecture 5 Color Correction: Added 19 slides on the color cube and on RGB vs HSV representation.
Lecture 6 Fourier Transform: Reversed the order of slides 85 and 86.
Lecture 7 Convolution: No changes other than date from 2006 to 2007.
Lecture 8 Frequency Filtering: Added slide on on ideal bandpass filter.
Lecture 9 Sharpening: No changes other than date from 2006 to 2007.
Lecture 10 Pixelization, Quantization: Added 12 slides on steganography (hiding one picture in another.)
Lecture 11 Sampling, Aliasing: Minor format changes.
Lecture 12 Resampling: Errors corrected on pp 34 & 108, 9 pages of examples added.
Lecture 13 Rotating: Added seven slides on interpolation and warping.
Lecture 14 Uncorrelated Noise: No changes other than date from 2006 to 2007.
Lecture 15 Correlated Noise: No changes other than date from 2006 to 2007.
Lecture 16 Median Filters: No changes other than date from 2006 to 2007.
Lecture 17 Binary Morphology: Slide 18 corrected. New slide (49) added. Minor changes (clarifications) made to 25 other slides.
Lecture 18 Grayscale Morphology: New slide (43) added.
PDF Slides:
Lectures on Image Processing (June 1, 2007)
Video Files
Vector median of 3-D vectors (animation)Interactive Media Files
Wagon Wheel Aliasing (animation)Other Files
Lecture 01: Introduction to the Course (ppt)Download here
Lecture
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Title
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Prof
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Size
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PPT: or Video View
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1
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The Principles of Microscopy Part 1 [49 slides]
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JPR
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6.153 Meg
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2
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The Principles of Microscopy Part 2 [41 slides]
|
JPR
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2.714 Meg
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3
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Image Formats and Image Manipulations [29 slides]
|
SK
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5.794 Meg
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PPT---
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4
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The Principles of Microscopy Part 3 [31 slides]
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JPR
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4.265 Meg
| |
5
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Fluorescence and Fluorescent Probes [52 slides]
|
JPR
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7.46 Meg
| |
6
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The Principles of Confocal Microscopy [44 slides]
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BR
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5.022 Meg
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7
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3D Imaging, Rotations and Stereo Imaging [33 slides]
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JPR
|
3.163 Meg
| |
8
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Principles of 2D image analysis - Morphometry (I) [46 slides]
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JPR
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1.623 Meg
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9
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Applications of Morphometry (II) [36 slides]
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JPR
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9.237 Meg
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10
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Live Cell Imaging Application in Confocal Microscopy [38 slides]
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JPR
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9.545 Meg
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11
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Applications of Confocal Microscopy [24 slides]
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JPR
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2.349 Meg
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12
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Sample Preparation of Confocal Microscopy [25 slides]
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JPR
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8.4 Meg
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13
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Additional Applications of Confocal Microscopy [25 slides]
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BR
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