Announcements

  1. (Sep 09) Course page is online.
  2. (Sep 10) Syllabus is available.
  3. (Oct 10) Updated slides for introduction are available.
  4. (Oct 10) Updated slides for digital image fundamentals are available.
  5. (Oct 11) Updated slides for binary image analysis are available.
  6. (Oct 18) HW1 is sent out (Check your email).
  7. Bilateralfilter Slides
  8. (Nov 04) Bilateral-filter slides are available.
  9. (Nov 19) HW2 is sent out (Check your email).
  10. (Dec 11) HW3 is sent out (Check your email).
  11. (Dec 20) FinalProject Instructions are available.

Personnel

Instructor:   Dr. Sedat Ozer (Office: EA 524, Email: sedat AT cs.bilkent.edu.tr)
TA: TBA.

Course Information

Schedule: Mondays: 08:30 - 10:20, Wednesdays:17:30 - 19:20
Office hours: Sedat Ozer: Mondays: 10:30 - 11:30 (By appointment)
TA: TBA.
Catalog description: Image acquisition, sampling and quantization. Spatial domain processing. Image enhancement. Texture analysis. Edge detection. Frequency domain processing. Color image processing. Mathematical morphology. Image segmentation and region representations. Statistical and structural scene descriptions. Introduction to Research. Deep learning. Applications.
Prerequisites: Good background on high-level programming including MATLAB and Python, data structures, linear algebra, and vector calculus. No prior knowledge of image processing or computer vision is assumed.
Syllabus: Make sure you read the syllabus for course details.

Texts

Lectures

Topics

Contents

Introduction

[ Slides ]

Topics:
  • Overview
  • Example applications
Demos:

Digital Image Fundamentals

[ Slides ]

Topics:
  • Acquisition, sampling, quantization
  • Image enhancement
  • Image formats
  • Linear algebra and MATLAB review
Readings:
  • SS Ch 1, 2
  • GW Ch 1, 2, 3.1-3.4
References:
  • R. C. Gonzales, R. E. Woods, "Review material and slides on linear algebra, probability, and linear systems," 2002.
Software:

Binary Image Analysis

[ Slides Part1 | Slides Part2 ]

Topics:
  • Pixels and neighborhoods
  • Mathematical morphology
  • Region Growing
  • Connected components analysis
  • Automatic thresholding
Readings:
  • SS Ch 3.1-3.5, 3.8
  • GW Ch 2.5, 9.1-9.5, 10.3
References:
Software:

Introduction to Deep Learning

[ Slides: Part 1 | Part 2 | Part 3 |

Part 4 ]

Topics:
  • Introduction to Classification
  • Logistic Regression
  • Fully Connected Neural Networks
  • Convolutional Neural Networks
  • Image Classification with LeNet

Filtering

[ Slides: Part 1 | Bilateralfilter Slides| Part 2 ]

Topics:
  • Spatial domain filtering
  • Frequency domain filtering
  • Image enhancement
Readings:
  • SS Ch 5.1-5.5, 5.10-5.11
  • GW Ch 3.5-3.8, 4
Software:

Edge Detection

[ Slides ]

Topics:
  • Edges, lines, arcs
  • Hough transform
Readings:
  • SS Ch 5.6-5.8, 10.3-10.4
  • GW Ch 10.1-10.2
References:
Software:

Local Feature Detectors

[Slides: Part1 | Part 2 ]

Topics:
  • Corners and other interest points
  • Invariants
References:
Software:

Color Image Processing

[ Slides ]

Topics:
  • Color spaces and conversions
Readings:
  • SS Ch 6.1-6.5
  • GW Ch 6

Texture Analysis

[ Slides ]

Topics:
  • Statistical approaches
  • Structural approaches
Readings:
  • SS Ch 7
  • GW Sec 11.3.3

Image Segmentation

[ Slides ]

Topics:
  • Histogram-based approaches
  • Clustering-based approaches
  • Region growing
  • Split-and-merge
  • Morphological approaches
  • Graph-based approaches
Readings:
  • SS Ch 10.1
  • GW Ch 10.4-10.5
References:
Software:

Representation and Description

[ Slides ]

Topics:
  • Image representations and descriptors
  • Region representations and descriptors
Readings:
  • SS Ch 10.2, 3.7
  • GW Ch 11
References:

Pattern Recognition Overview

[ Slides: Part 1 | Part 2 ]

Topics:
  • Brief introduction to pattern recognition
Readings:
  • SS Ch 4
  • GW Ch 12.1-12.2
References:
Software:

Case Studies

[ Slides: Part 1 | Part 2 (with kind permission from Prof. Linda Shapiro) | Part 3 (with kind permission from Joseph Redmon) ]

Topics:
  • Image classification
  • Object recognition
  • Deep learning
References:

Exams

Homework

    You will receive an email announcing the HWs.
  1. First HW (HW1) has been sent out. Check your email. Due: November 01, 2020, by 23:00.
  2. Second HW (HW2) has been sent out. Check your email. Due: November 28, 2020, by 23:00.
  3. Third HW (HW3) has been sent out. Check your email. Due: December 20, 2020, by 23:30.

Please make sure you fully understand the honor code in the syllabus as well as the Bilkent University Policy on Academic Honesty (in Turkish) and the Rules and Regulations of the Higher Education Council (YOK) (in Turkish). Cheating and plagiarism on exams, quizzes, and assignments will be punished according to these regulations.

Paper / Survey Presentations

You will first need to decide a final project to work on. Once you agreed on your final project topic, next step is getting ready to work for it. That typically starts with understanding what is done in the literature and how they are done first. To understand what has been done and how it is done in the literature relevant to your project, you need to prepare a survey that covers the relevant and most recent literature. You will present your survey as a presentation in the class-room. Again: this will be a group presentation relevant to your final project.

Project

Follow your in-class discussions and in-class slides for detailed info about the final projects. You will also recevie an email including more info about your final project submission. (Info about how to submit your final projects will be announced after the midterm!)

Grading Policy

Please refer to the course syllabus for the grading scheme.

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