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The document provides an introduction to digital image processing, discussing its history, key concepts, and applications across various fields such as medicine, industrial inspection, and law enforcement. It outlines the evolution of digital image processing from early applications to contemporary uses, emphasizing the tasks involved in enhancing and analyzing image data. The lecture also covers the fundamental steps in digital image processing, including image acquisition, enhancement, and object recognition.

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Digital Image Processing
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1 of 36 Digital Image Processing: Introduction
2 of 36 Introduction “One picture is worth more than ten thousand words” Anonymous
3 of 36 Miscellanea Lectures: -Video Contents -Slides -White Board Labs: -Lab work -Project
4 of 36 References Text Book “Digital Image Processing”, Rafael C. Gonzalez & Richard E. Woods, Addison-Wesley, 2002 – Much of the material that follows is taken from this book Reference “Fundamentals of Digital Image Processing” by Anil K Jain
5 of 36 Contents This lecture will cover: – Motivation – What is a digital image? – What is digital image processing? – History of digital image processing – State of the art examples of digital image processing – Key stages in digital image processing
6 of 36 What is a Digital Image? A digital image is a representation of a two- dimensional image as a finite set of digital values, called picture elements or pixels Images taken from Gonzalez & Woods, Digital Image Processing (2002)
7 of 36 What is a Digital Image? (cont…) Pixel values typically represent gray levels, colours, heights, opacities etc Remember digitization implies that a digital image is an approximation of a real scene 1 pixel Images taken from Gonzalez & Woods, Digital Image Processing (2002)
8 of 36 What is a Digital Image? (cont…) Common image formats include: – 1 sample per point (B&W or Grayscale) – 3 samples per point (Red, Green, and Blue) – 4 samples per point (Red, Green, Blue, and “Alpha”, a.k.a. Opacity) For most of this course we will focus on grey-scale images
9 of 36 What is Digital Image Processing? Digital image processing focuses on two major tasks – Improvement of pictorial information for human interpretation – Processing of image data for storage, transmission and representation for autonomous machine perception Some argument about where image processing ends and fields such as image analysis and computer vision start
10 of 36 What is DIP? (cont…) The continuum from image processing to computer vision can be broken up into low-, mid- and high-level processes Low Level Process Input: Image Output: Image Examples: Noise removal, image sharpening Mid Level Process Input: Image Output: Attributes Examples: Object recognition, segmentation High Level Process Input: Attributes Output: Understanding Examples: Scene understanding, autonomous navigation In this course we will stop here
11 of 36 History of Digital Image Processing Early 1920s: One of the first applications of digital imaging was in the news- paper industry – The Bartlane cable picture transmission service – Images were transferred by submarine cable between London and New York – Pictures were coded for cable transfer and reconstructed at the receiving end on a telegraph printer Early digital image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
12 of 36 History of DIP (cont…) Mid to late 1920s: Improvements to the Bartlane system resulted in higher quality images – New reproduction processes based on photographic techniques – Increased number of tones in reproduced images Improved digital image Early 15 tone digital image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
13 of 36 History of DIP (cont…) 1960s: Improvements in computing technology and the onset of the space race led to a surge of work in digital image processing – 1964: Computers used to improve the quality of images of the moon taken by the Ranger 7 probe – Such techniques were used in other space missions including the Apollo landings A picture of the moon taken by the Ranger 7 probe minutes before landing Images taken from Gonzalez & Woods, Digital Image Processing (2002)
14 of 36 History of DIP (cont…) 1970s: Digital image processing begins to be used in medical applications – 1979: Sir Godfrey N. Hounsfield & Prof. Allan M. Cormack share the Nobel Prize in medicine for the invention of tomography, the technology behind Computerised Axial Tomography (CAT) scans Typical head slice CAT image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
15 of 36 History of DIP (cont…) 1980s - Today: The use of digital image processing techniques has exploded and they are now used for all kinds of tasks in all kinds of areas – Image enhancement/restoration – Artistic effects – Medical visualisation – Industrial inspection – Law enforcement – Human computer interfaces
16 of 36 Examples: Image Enhancement One of the most common uses of DIP techniques: improve quality, remove noise etc Images taken from Gonzalez & Woods, Digital Image Processing (2002)
17 of 36 Examples: The Hubble Telescope Launched in 1990 the Hubble telescope can take images of very distant objects However, an incorrect mirror made many of Hubble’s images useless Image processing techniques were used to fix this
18 of 36 Examples: Artistic Effects Artistic effects are used to make images more visually appealing, to add special effects and to make composite images
19 of 36 Examples: Medicine Take slice from MRI scan of canine heart, and find boundaries between types of tissue – Image with gray levels representing tissue density – Use a suitable filter to highlight edges Original MRI Image of a Dog Heart Edge Detection Image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
20 of 36 Examples: GIS Geographic Information Systems – Digital image processing techniques are used extensively to manipulate satellite imagery – Terrain classification – Meteorology Images taken from Gonzalez & Woods, Digital Image Processing (2002)
21 of 36 Examples: GIS (cont…) Night-Time Lights of the World data set – Global inventory of human settlement – Not hard to imagine the kind of analysis that might be done using this data Images taken from Gonzalez & Woods, Digital Image Processing (2002)
22 of 36 Examples: Industrial Inspection Human operators are expensive, slow and unreliable Make machines do the job instead Industrial vision systems are used in all kinds of industries Can we trust them? Images taken from Gonzalez & Woods, Digital Image Processing (2002)
23 of 36 Examples: PCB Inspection Printed Circuit Board (PCB) inspection – Machine inspection is used to determine that all components are present and that all solder joints are acceptable – Both conventional imaging and x-ray imaging are used
24 of 36 Examples: Law Enforcement Image processing techniques are used extensively by law enforcers – Number plate recognition for speed cameras/automated toll systems – Fingerprint recognition – Enhancement of CCTV images Images taken from Gonzalez & Woods, Digital Image Processing (2002)
25 of 36 Examples: HCI Try to make human computer interfaces more natural – Face recognition – Gesture recognition Does anyone remember the user interface from “Minority Report”? These tasks can be extremely difficult
26 of 36 Colour Fundamentals (cont…) Chromatic light spans the electromagnetic spectrum from approximately 400 to 700 nm As we mentioned before human colour vision is achieved through 6 to 7 million cones in each eye Images taken from Gonzalez & Woods, Digital Image Processing (2002)
27 of 36 09/03/24 Imaging types •gamma ray Imaging(Nuclear Medicine) •x-ray imaging(Diagnosis) •Imaging in Ultrviolet band(industrial inspection, astronomical observation) •Imaging in visible & Infra Red band •Imaging in MicroWave band The dominant application of imaging in the microwave band is wave The unique feature of imaging radar is its ability to collect data over virtually any region at anytime, regardless of weather or ambient lighting condition •Imaging in Radio band •Imaging Modeleties using non EM Spectrum band
28 of 36 Fundamental Steps in DIP Material covered in book has two broad categories – Methods having input & Output as images – Methods having image as input and attributes as output – This is depicted in diagram – Diagram doesn’t imply that all process are applied to all images but just that any can be applied for specific purpose 09/03/24
29 of 36 Key Stages in Digital Image Processing Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression
30 of 36 Key Stages in Digital Image Processing: Image Aquisition Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
31 of 36 Key Stages in Digital Image Processing: Image Enhancement Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
32 of 36 Key Stages in Digital Image Processing: Image Restoration Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
33 of 36 Key Stages in Digital Image Processing: Morphological Processing Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
34 of 36 Key Stages in Digital Image Processing: Segmentation Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
35 of 36 Key Stages in Digital Image Processing: Object Recognition Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
36 of 36 Key Stages in Digital Image Processing: Representation & Description Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
37 of 36 Key Stages in Digital Image Processing: Image Compression Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression
38 of 36 Key Stages in Digital Image Processing: Colour Image Processing Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression
39 of 36 Summary We have looked at: – What is a digital image? – What is digital image processing? – History of digital image processing – State of the art examples of digital image processing – Key stages in digital image processing Next time we will start to see how it all works…

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chapter_1_Digital_Image_Processing_Intro (1).ppt

  • 2. 2 of 36 Introduction “One picture is worth more than ten thousand words” Anonymous
  • 4. 4 of 36 References Text Book “Digital Image Processing”, Rafael C. Gonzalez & Richard E. Woods, Addison-Wesley, 2002 – Much of the material that follows is taken from this book Reference “Fundamentals of Digital Image Processing” by Anil K Jain
  • 5. 5 of 36 Contents This lecture will cover: – Motivation – What is a digital image? – What is digital image processing? – History of digital image processing – State of the art examples of digital image processing – Key stages in digital image processing
  • 6. 6 of 36 What is a Digital Image? A digital image is a representation of a two- dimensional image as a finite set of digital values, called picture elements or pixels Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 7. 7 of 36 What is a Digital Image? (cont…) Pixel values typically represent gray levels, colours, heights, opacities etc Remember digitization implies that a digital image is an approximation of a real scene 1 pixel Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 8. 8 of 36 What is a Digital Image? (cont…) Common image formats include: – 1 sample per point (B&W or Grayscale) – 3 samples per point (Red, Green, and Blue) – 4 samples per point (Red, Green, Blue, and “Alpha”, a.k.a. Opacity) For most of this course we will focus on grey-scale images
  • 9. 9 of 36 What is Digital Image Processing? Digital image processing focuses on two major tasks – Improvement of pictorial information for human interpretation – Processing of image data for storage, transmission and representation for autonomous machine perception Some argument about where image processing ends and fields such as image analysis and computer vision start
  • 10. 10 of 36 What is DIP? (cont…) The continuum from image processing to computer vision can be broken up into low-, mid- and high-level processes Low Level Process Input: Image Output: Image Examples: Noise removal, image sharpening Mid Level Process Input: Image Output: Attributes Examples: Object recognition, segmentation High Level Process Input: Attributes Output: Understanding Examples: Scene understanding, autonomous navigation In this course we will stop here
  • 11. 11 of 36 History of Digital Image Processing Early 1920s: One of the first applications of digital imaging was in the news- paper industry – The Bartlane cable picture transmission service – Images were transferred by submarine cable between London and New York – Pictures were coded for cable transfer and reconstructed at the receiving end on a telegraph printer Early digital image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 12. 12 of 36 History of DIP (cont…) Mid to late 1920s: Improvements to the Bartlane system resulted in higher quality images – New reproduction processes based on photographic techniques – Increased number of tones in reproduced images Improved digital image Early 15 tone digital image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 13. 13 of 36 History of DIP (cont…) 1960s: Improvements in computing technology and the onset of the space race led to a surge of work in digital image processing – 1964: Computers used to improve the quality of images of the moon taken by the Ranger 7 probe – Such techniques were used in other space missions including the Apollo landings A picture of the moon taken by the Ranger 7 probe minutes before landing Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 14. 14 of 36 History of DIP (cont…) 1970s: Digital image processing begins to be used in medical applications – 1979: Sir Godfrey N. Hounsfield & Prof. Allan M. Cormack share the Nobel Prize in medicine for the invention of tomography, the technology behind Computerised Axial Tomography (CAT) scans Typical head slice CAT image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 15. 15 of 36 History of DIP (cont…) 1980s - Today: The use of digital image processing techniques has exploded and they are now used for all kinds of tasks in all kinds of areas – Image enhancement/restoration – Artistic effects – Medical visualisation – Industrial inspection – Law enforcement – Human computer interfaces
  • 16. 16 of 36 Examples: Image Enhancement One of the most common uses of DIP techniques: improve quality, remove noise etc Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 17. 17 of 36 Examples: The Hubble Telescope Launched in 1990 the Hubble telescope can take images of very distant objects However, an incorrect mirror made many of Hubble’s images useless Image processing techniques were used to fix this
  • 18. 18 of 36 Examples: Artistic Effects Artistic effects are used to make images more visually appealing, to add special effects and to make composite images
  • 19. 19 of 36 Examples: Medicine Take slice from MRI scan of canine heart, and find boundaries between types of tissue – Image with gray levels representing tissue density – Use a suitable filter to highlight edges Original MRI Image of a Dog Heart Edge Detection Image Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 20. 20 of 36 Examples: GIS Geographic Information Systems – Digital image processing techniques are used extensively to manipulate satellite imagery – Terrain classification – Meteorology Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 21. 21 of 36 Examples: GIS (cont…) Night-Time Lights of the World data set – Global inventory of human settlement – Not hard to imagine the kind of analysis that might be done using this data Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 22. 22 of 36 Examples: Industrial Inspection Human operators are expensive, slow and unreliable Make machines do the job instead Industrial vision systems are used in all kinds of industries Can we trust them? Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 23. 23 of 36 Examples: PCB Inspection Printed Circuit Board (PCB) inspection – Machine inspection is used to determine that all components are present and that all solder joints are acceptable – Both conventional imaging and x-ray imaging are used
  • 24. 24 of 36 Examples: Law Enforcement Image processing techniques are used extensively by law enforcers – Number plate recognition for speed cameras/automated toll systems – Fingerprint recognition – Enhancement of CCTV images Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 25. 25 of 36 Examples: HCI Try to make human computer interfaces more natural – Face recognition – Gesture recognition Does anyone remember the user interface from “Minority Report”? These tasks can be extremely difficult
  • 26. 26 of 36 Colour Fundamentals (cont…) Chromatic light spans the electromagnetic spectrum from approximately 400 to 700 nm As we mentioned before human colour vision is achieved through 6 to 7 million cones in each eye Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 27. 27 of 36 09/03/24 Imaging types •gamma ray Imaging(Nuclear Medicine) •x-ray imaging(Diagnosis) •Imaging in Ultrviolet band(industrial inspection, astronomical observation) •Imaging in visible & Infra Red band •Imaging in MicroWave band The dominant application of imaging in the microwave band is wave The unique feature of imaging radar is its ability to collect data over virtually any region at anytime, regardless of weather or ambient lighting condition •Imaging in Radio band •Imaging Modeleties using non EM Spectrum band
  • 28. 28 of 36 Fundamental Steps in DIP Material covered in book has two broad categories – Methods having input & Output as images – Methods having image as input and attributes as output – This is depicted in diagram – Diagram doesn’t imply that all process are applied to all images but just that any can be applied for specific purpose 09/03/24
  • 29. 29 of 36 Key Stages in Digital Image Processing Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression
  • 30. 30 of 36 Key Stages in Digital Image Processing: Image Aquisition Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 31. 31 of 36 Key Stages in Digital Image Processing: Image Enhancement Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 32. 32 of 36 Key Stages in Digital Image Processing: Image Restoration Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 33. 33 of 36 Key Stages in Digital Image Processing: Morphological Processing Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 34. 34 of 36 Key Stages in Digital Image Processing: Segmentation Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 35. 35 of 36 Key Stages in Digital Image Processing: Object Recognition Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 36. 36 of 36 Key Stages in Digital Image Processing: Representation & Description Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression Images taken from Gonzalez & Woods, Digital Image Processing (2002)
  • 37. 37 of 36 Key Stages in Digital Image Processing: Image Compression Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression
  • 38. 38 of 36 Key Stages in Digital Image Processing: Colour Image Processing Image Acquisition Image Restoration Morphological Processing Segmentation Representation & Description Image Enhancement Object Recognition Problem Domain Colour Image Processing Image Compression
  • 39. 39 of 36 Summary We have looked at: – What is a digital image? – What is digital image processing? – History of digital image processing – State of the art examples of digital image processing – Key stages in digital image processing Next time we will start to see how it all works…

Editor's Notes

  • #6: Real world is continuous – an image is simply a digital approximation of this.
  • #10: Give the analogy of the character recognition system. Low Level: Cleaning up the image of some text Mid level: Segmenting the text from the background and recognising individual characters High level: Understanding what the text says