cse 803: computer vision naveed sarfraz khattak. what is computer vision?
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CSE 803: Computer Vision
Naveed Sarfraz Khattak
What is Computer Vision?
What is Computer Vision?
• Computer vision is the science and technology of machines that see.
• Concerned with the theory for building artificial systems that obtain information from images.
• The image data can take many forms, such as a video sequence, depth images, views from multiple cameras, or
multi-dimensional data from a medical scanner
Computer Vision
Make computers understand images and videos.
What kind of scene?
Where are the cars?
How far is the building?
…
Components of a computer vision system
Lighting
Scene
Camera
Computer
Scene Interpretation
Srinivasa Narasimhan’s slide
Computer vision vs human vision
What we see What a computer sees
Vision is really hard
• Vision is an amazing feat of natural intelligence
– Visual cortex occupies about 50% of Macaque brain– More human brain devoted to vision than anything else
Is that a queen or a bishop?
Vision is multidisciplinary
From wiki
Computer Graphics
HCI
Why computer vision matters
Safety Health Security
Comfort AccessFun
A little story about Computer Vision
In 1966, Marvin Minsky at MIT asked his undergraduate student Gerald Jay Sussman to “spend the summer linking a camera to a
computer and getting the computer to describe what it saw”. We now know that the problem is slightly more difficult than that. (Szeliski 2009, Computer Vision)
A little story about Computer Vision
In 1966, Marvin Minsky at MIT asked his undergraduate student Gerald Jay Sussman to “spend the summer linking a camera to a
computer and getting the computer to describe what it saw”. We now know that the problem is slightly more difficult than that.
Founder, MIT AI project
A little story about Computer Vision
In 1966, Marvin Minsky at MIT asked his undergraduate student Gerald Jay Sussman to “spend the summer linking a camera to a
computer and getting the computer to describe what it saw”. We now know that the problem is slightly more difficult than that.
Image UnderstandingImage Understanding
Ridiculously brief history of computer vision
• 1966: Minsky assigns computer vision as an undergrad summer project
• 1960’s: interpretation of synthetic worlds
• 1970’s: some progress on interpreting selected images
• 1980’s: ANNs come and go; shift toward geometry and increased mathematical rigor
• 1990’s: face recognition; statistical analysis in vogue
• 2000’s: broader recognition; large annotated datasets available; video processing starts; vision & graphis; vision for HCI; internet vision, etc.
Guzman ‘68
Ohta Kanade ‘78
Turk and Pentland ‘91
How vision is used now• Examples of state-of-the-art
Optical character recognition (OCR)
Digit recognition, AT&T labshttp://www.research.att.com/~yann/
Technology to convert scanned docs to text• If you have a scanner, it probably came with OCR software
License plate readershttp://en.wikipedia.org/wiki/Automatic_number_plate_recognition
Face detection
• Many new digital cameras now detect faces– Canon, Sony, Fuji, …
Smile detection
Sony Cyber-shot® T70 Digital Still Camera
Object recognition (in supermarkets)
LaneHawk by EvolutionRobotics“A smart camera is flush-mounted in the checkout lane, continuously
watching for items. When an item is detected and recognized, the cashier verifies the quantity of items that were found under the basket, and continues to close the transaction. The item can remain under the basket, and with LaneHawk,you are assured to get paid for it… “
Vision-based biometrics
“How the Afghan Girl was Identified by Her Iris Patterns” Read the story wikipedia
Login without a password…
Fingerprint scanners on many new laptops,
other devices
Face recognition systems now beginning to appear more widely
http://www.sensiblevision.com/
Object recognition (in mobile phones)
Point & Find, NokiaGoogle Goggles
The Matrix movies,
Special effects: shape capture
Pirates of the Carribean, Industrial Light and Magic
Special effects: motion capture
Sports
Sportvision first down lineNice explanation on www.howstuffworks.com
http://www.sportvision.com/video.html
Smart cars
• Mobileye [wiki article]– Vision systems currently in high-end BMW, GM,
Volvo models – By 2010: 70% of car manufacturers.
Slide content courtesy of Amnon Shashua
Google cars
http://www.nytimes.com/2010/10/10/science/10google.html?ref=artificialintelligence
Interactive Games: Kinect• Object Recognition: http://www.youtube.com/watch?feature=iv&v=fQ59dXOo63o• Mario: http://www.youtube.com/watch?v=8CTJL5lUjHg• 3D: http://www.youtube.com/watch?v=7QrnwoO1-8A• Robot: http://www.youtube.com/watch?v=w8BmgtMKFbY
• 3D tracking, reconstruction, and interaction: http://research.microsoft.com/en-
us/projects/surfacerecon/default.aspx
Vision in space
Vision systems (JPL) used for several tasks• Panorama stitching• 3D terrain modeling• Obstacle detection, position tracking• For more, read “Computer Vision on Mars” by Matthies et al.
NASA'S Mars Exploration Rover Spirit captured this westward view from atop a low plateau where Spirit spent the closing months of 2007.
Industrial robots
Vision-guided robots position nut runners on wheels
Mobile robots
http://www.robocup.org/NASA’s Mars Spirit Rover
http://en.wikipedia.org/wiki/Spirit_rover
Saxena et al. 2008STAIR at Stanford
Medical imaging
Image guided surgeryGrimson et al., MIT
3D imagingMRI, CT
Prerequisites
• A good working knowledge of C/C++, Java or Matlab
• A good understand of math (linear algebra, basic calculus, basic probability)
• Willing to learn new stuffs (optimization, statistical learning etc.)
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Course ObjectivesCourse Objectives
• Develop an Understanding of Basic Computer Develop an Understanding of Basic Computer Vision Techniques Through Lecture, Study, and Vision Techniques Through Lecture, Study, and ExercisesExercises
• Develop a Fluency With a Computer Vision (CV) Develop a Fluency With a Computer Vision (CV) Software.Software.
• Implement an Independent Computer Vision Implement an Independent Computer Vision Project Which Demonstrates Your Ability to Project Which Demonstrates Your Ability to Integrate the Mathematical Theory With the Integrate the Mathematical Theory With the Practical Issues Practical Issues
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CPS-803 Computer Vision CPS-803 Computer Vision
PreRequisitesPreRequisites As already givenAs already given
11 IntroductionIntroduction CV and IP; applications ; images and imaging devices CV and IP; applications ; images and imaging devices ; perspective projection ; binary image processing; perspective projection ; binary image processing
22 Pattern Recognition ConceptsPattern Recognition Concepts; filtering and edge detection; color ; filtering and edge detection; color and shading , including 3D effectsand shading , including 3D effects
33 TextureTexture, IBM Veggie Vision, image database, motion, motion , IBM Veggie Vision, image database, motion, motion vectors, optical flowvectors, optical flow
44 SegmentationSegmentation, 2D matching, 2D matching
55 3D perception3D perception; stereo and structured light; shape from shading, 3D ; stereo and structured light; shape from shading, 3D sensing; 3D Transformations, Camera calibrationsensing; 3D Transformations, Camera calibration
66 3D reconstruction3D reconstruction, 3D Object modelling and matching, 3D Object modelling and matching
77 Augmented realityAugmented reality, review entire course, review entire course
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Books
TextBookTextBook 1. Computer Vision by Linda Shapiro and 1. Computer Vision by Linda Shapiro and George Stockman, Prentice- Hall 2001George Stockman, Prentice- Hall 2001
ReferenceReference 1.1. Computer Vision: a modern approach, Computer Vision: a modern approach, Forsyth and Ponce, Prentice- Hall 2002Forsyth and Ponce, Prentice- Hall 2002
2.2. Digital Image Processing by R. C. Gonzalez and Digital Image Processing by R. C. Gonzalez and R. E. Woods, Addison Wesley, Second Ed., R. E. Woods, Addison Wesley, Second Ed., 2002.2002.
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CSE803 Computer Vision
• Credits: 3 • Class:
– On every Thursday
• Phone: 03215109216• Office: Computer Science Building • Office hours: Any working day in the morning or by
appointment. Emails and telephone calls are not good for asking questions.
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• Homework: There will be 3 homework assignments. • Projects: Four projects. You may use any language
available to you, but C is suggested. • Exams: Three exams are planned: 2 OHTs and final. • Grading: Homework and projects: 30%, all equally
weighted. OHTs 15%each; final: 40%. • Work Deposit: Work will be due at the beginning of the
class. No late work will be accepted. In case of official leave work will be deposited in the next class.
• Final Exam: will be cumulative (complete syllabus) exam of 2 hours.
• Changes: This syllabus is subject to change. The changes will be announced in the class.
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Table 2: Project and Homework ScheduleTable 2: Project and Homework Schedule
Day Date SubjectThursday 2nd Wk Project 1 (Binary Image Analysis)
HandoutsThursday 4th Wk Project 1 due, Homework 1 HandoutsThursday 5th Wk Homework 1 due, Project 2(Calibration)
HandoutsThursday 7th Wk Project 2 due, Homework 2 HandoutThursday 8th Wk Homework 2 due, Project 3 (Shape
detection) HandoutThursday 10th Wk Project 3 dueThursday 10th Wk Project 4 (Face recognition) HandoutThursday 12th Wk Project 4 dueThursday 13th Wk Homework 3 handed outThursday 14th Wk Homework 3 due
Grading Schemes
• Assignments (10%)
• Quizes (10%)
• Projects(10%)
• OHTs(30%)
• Final Comprehansive Exam (40%)
Project
Student can work in a group of two
Submit your code and project report
Final presentation & in class demos
Late policy: 20% reduction per day if you do not have good reasons
Other Information
My email: khattakn@mcs.edu.pk
My office: Trg Office Shoa ul Qammer Block
Office hours: any time in the Morning or by appointment
Email Me Today
Your background
• Vision, Graphics, machine learning, image processing
• Math (linear algebra, statistics, calculus, optimization, etc.)
• Coding (C++, java, matlab, etc.)
Your research Interest?
Master/Ph.D. (year)?
Why do you take this class?
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