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⇱ Camera and Imaging | Coursera

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Camera and Imaging

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Gain insight into a topic and learn the fundamentals.
4.7

161 reviews

Beginner level

Recommended experience

Flexible schedule
2 weeks at 10 hours a week
Learn at your own pace
96%
Most learners liked this course
Gain insight into a topic and learn the fundamentals.
4.7

161 reviews

Beginner level

Recommended experience

Flexible schedule
2 weeks at 10 hours a week
Learn at your own pace
96%
Most learners liked this course

What you'll learn

  • Learn how a camera works and how an image is formed using a lens

  • Understand how an image sensor works and its key characteristics

  • Design cameras that capture high dynamic range and wide angle images

  • Learn to create binary images and use them to build a simple object recognition system

Details to know

Shareable certificate

Add to your LinkedIn profile

Assessments

30 assignments

Taught in English

Build your subject-matter expertise

This course is part of the First Principles of Computer Vision Specialization
When you enroll in this course, you'll also be enrolled in this Specialization.
  • Learn new concepts from industry experts
  • Gain a foundational understanding of a subject or tool
  • Develop job-relevant skills with hands-on projects
  • Earn a shareable career certificate

There are 6 modules in this course

This course covers the fundamentals of imaging – the creation of an image that is ready for consumption or processing by a human or a machine. Imaging has a long history, spanning several centuries. But the advances made in the last three decades have revolutionized the camera and dramatically improved the robustness and accuracy of computer vision systems. We describe the fundamentals of imaging, as well as recent innovations in imaging that have had a profound impact on computer vision.

This course starts with examining how an image is formed using a lens camera. We explore the optical characteristics of a camera such as its magnification, F-number, depth of field and field of view. Next, we describe how solid-state image sensors (CCD and CMOS) record images, and the key properties of an image sensor such as its resolution, noise characteristics and dynamic range. We describe how image sensors can be used to sense color as well as capture images with high dynamic range. In certain structured environments, an image can be thresholded to produce a binary image from which various geometric properties of objects can be computed and used for recognizing and locating objects. Finally, we present the fundamentals of image processing – the development of computational tools to process a captured image to make it cleaner (denoising, deblurring, etc.) and easier for computer vision systems to analyze (linear and non-linear image filtering methods).

What's included

8 readings2 discussion prompts8 plugins

8 readingsβ€’Total 81 minutes
  • Course Syllabus β€’10 minutes
  • About the Instructor β€’10 minutes
  • Course Information and Supportβ€’10 minutes
  • Academic Honesty Policy β€’10 minutes
  • Discussion Forum Etiquetteβ€’5 minutes
  • Frequently Asked Questionsβ€’5 minutes
  • Pre-Course Surveyβ€’1 minute
  • Module 1 Lecture Handoutβ€’30 minutes
2 discussion promptsβ€’Total 10 minutes
  • Introductions β€’10 minutes
  • Module 1 Questions and Feedbackβ€’0 minutes
8 pluginsβ€’Total 64 minutes
  • Pre-Course Surveyβ€’5 minutes
  • 1.1 Overview of Introductionβ€’4 minutes
  • 1.2 What is Computer Vision? β€’8 minutes
  • 1.3 What is Vision Used For? β€’11 minutes
  • 1.4 How Do Humans Do It?β€’10 minutes
  • 1.5 Topics Covered β€’18 minutes
  • 1.6 About the Lecture Seriesβ€’5 minutes
  • 1.7 References and Credits β€’3 minutes

What's included

2 readings6 assignments2 discussion prompts7 plugins

2 readingsβ€’Total 40 minutes
  • Module 2 Lecture Handoutβ€’30 minutes
  • 2.3 Video Correctionβ€’10 minutes
6 assignmentsβ€’Total 85 minutes
  • 2.1 Overview of Image Formation Self-Check Quiz β€’5 minutes
  • 2.2 Pinhole and Perspective Projection Self-check Quiz β€’15 minutes
  • 2.3 Image Formation using Lenses Self-check Quiz β€’15 minutes
  • 2.4 Depth of Field Self-check Quiz β€’15 minutes
  • 2.5 Lens Related Issues Self-check Quiz β€’5 minutes
  • Week 2 Image Formationβ€’30 minutes
2 discussion promptsβ€’Total 10 minutes
  • Week 2 Intrusive Detection Systemβ€’10 minutes
  • Module 2 Questions and Feedbackβ€’0 minutes
7 pluginsβ€’Total 99 minutes
  • 2.1 Overview of Image Formationβ€’3 minutes
  • 2.2 Pinhole and Perspective Projectionβ€’21 minutes
  • 2.3 Image Formation using Lenses β€’12 minutes
  • 2.4 Depth of Field β€’15 minutes
  • 2.5 Lens Related Issues β€’8 minutes
  • 2.6 Wide Angle Cameras β€’24 minutes
  • 2.7 Animal Eyes β€’16 minutes

What's included

5 readings7 assignments2 discussion prompts7 plugins

5 readingsβ€’Total 70 minutes
  • Module 3 Lecture Handoutβ€’30 minutes
  • 3.3 Video Correctionβ€’10 minutes
  • 3.4 Video Correctionβ€’10 minutes
  • 3.5 Video Correctionβ€’10 minutes
  • 3.5 Sensing Color Supplementary Readingβ€’10 minutes
7 assignmentsβ€’Total 85 minutes
  • 3.1 Overview of Image Sensing Self-check Quiz β€’5 minutes
  • 3.2 A Brief History of Imaging Self-check Quiz β€’5 minutes
  • 3.3 Types of Image Sensors Self-check Quiz β€’10 minutes
  • 3.4 Resolution, Noise and Dynamic Range Self-check Quiz β€’15 minutes
  • 3.5 Sensing Color Self-check Quiz β€’10 minutes
  • 3.6 Camera Response and HDR Imaging Self-check Quiz β€’10 minutes
  • Week 3 Image Sensing β€’30 minutes
2 discussion promptsβ€’Total 10 minutes
  • Week 3 Designing a Camera Lensβ€’10 minutes
  • Module 3 Questions and Feedbackβ€’0 minutes
7 pluginsβ€’Total 88 minutes
  • 3.1 Overview of Imaging Sensing β€’3 minutes
  • 3.2 A Brief History of Imaging β€’16 minutes
  • 3.3 Types of Image Sensors β€’11 minutes
  • 3.4 Resolution, Noise, Dynamic Range β€’14 minutes
  • 3.5 Sensing Color β€’19 minutes
  • 3.6 Camera Response and HDR Imaging β€’17 minutes
  • 3.7 Nature’s Image Sensorsβ€’8 minutes

What's included

2 readings5 assignments2 discussion prompts4 plugins

2 readingsβ€’Total 40 minutes
  • Module 4 Lecture Handoutβ€’30 minutes
  • 4.2 Video Correctionβ€’10 minutes
5 assignmentsβ€’Total 65 minutes
  • 4.1 Overview of Binary Images Self-check Quiz β€’5 minutes
  • 4.2 Geometric Properties Self-check Quiz β€’5 minutes
  • 4.3 Segmenting Binary Images Self-check Quiz β€’10 minutes
  • 4.4 Iterative Modification Self-check Quiz β€’15 minutes
  • Week 4 Binary Imagesβ€’30 minutes
2 discussion promptsβ€’Total 10 minutes
  • Week 4 Locating Objectsβ€’10 minutes
  • Module 4 Questions and Feedbackβ€’0 minutes
4 pluginsβ€’Total 47 minutes
  • 4.1 Overview of Binary Imagesβ€’8 minutes
  • 4.2 Geometric Properties β€’19 minutes
  • 4.3 Segmenting Binary Imagesβ€’10 minutes
  • 4.4 Iterative Modification β€’10 minutes

What's included

4 readings6 assignments2 discussion prompts6 plugins

4 readingsβ€’Total 60 minutes
  • Module 5 Lecture Handoutβ€’30 minutes
  • 5.3 Video Correction β€’10 minutes
  • 5.4 Video Correction β€’10 minutes
  • 5.6 Video Correctionβ€’10 minutes
6 assignmentsβ€’Total 90 minutes
  • 5.2 Pixel Processing Self-check Quiz β€’5 minutes
  • 5.3 LSIS and Convolution Self-check Quiz β€’15 minutes
  • 5.4 Linear Image Filters Self-check Quiz β€’15 minutes
  • 5.5 Non-Linear Image Filters Self-check Quiz β€’15 minutes
  • 5.6 Template Matching by Correlation Self-check Quiz β€’10 minutes
  • Week 5 Image Processing Iβ€’30 minutes
2 discussion promptsβ€’Total 10 minutes
  • Week 5 Analyzing Convolutionβ€’10 minutes
  • Module 5 Questions and Feedback β€’0 minutes
6 pluginsβ€’Total 68 minutes
  • 5.1 Overview of Image Processing Iβ€’4 minutes
  • 5.2 Pixel Processing β€’3 minutes
  • 5.3 LSIS and Convolution β€’22 minutes
  • 5.4 Linear Image Filtersβ€’16 minutes
  • 5.5 Non-Linear Image Filtersβ€’16 minutes
  • 5.6 Template Matching by Correlationβ€’7 minutes

What's included

4 readings6 assignments1 discussion prompt7 plugins

4 readingsβ€’Total 51 minutes
  • Module 6 Lecture Handoutβ€’30 minutes
  • 6.3 Video Correctionβ€’10 minutes
  • 6.6 Video Correctionβ€’10 minutes
  • Post-Course Surveyβ€’1 minute
6 assignmentsβ€’Total 75 minutes
  • 6.2 Fourier Transform Self-check Quiz β€’10 minutes
  • 6.3 Convolution Theorem Self-check Quiz β€’15 minutes
  • 6.4 Image Filtering in Frequency Domain Self-check Quiz β€’5 minutes
  • 6.5 Deconvolution Self-check Quiz β€’5 minutes
  • 6.6 Sampling Theory and Aliasing Self-check Quiz β€’10 minutes
  • Week 6 Image Processing IIβ€’30 minutes
1 discussion prompt
  • Module 6 Questions and Feedbackβ€’0 minutes
7 pluginsβ€’Total 73 minutes
  • 6.1 Overview of Image Processing IIβ€’4 minutes
  • 6.2 Fourier Transformβ€’17 minutes
  • 6.3 Convolution Theoremβ€’8 minutes
  • 6.4 Image Filtering in Frequency Domainβ€’14 minutes
  • 6.5 Deconvolution β€’12 minutes
  • 6.6 Sampling Theory and Aliasingβ€’13 minutes
  • Post-Course Surveyβ€’5 minutes

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Instructor

Instructor ratings
4.7 (40 ratings)
Columbia University
5 Coursesβ€’23,231 learners

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Learner reviews

  • 5 stars

    81.98%

  • 4 stars

    13.66%

  • 3 stars

    1.86%

  • 2 stars

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  • 1 star

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Showing 3 of 161

SW
Β·

Reviewed on Jan 1, 2023

An awesome course that covers all the important image and processing fundamentals.

MK
Β·

Reviewed on Mar 5, 2023

Good course for learning fundamentals in image processing.

MG
Β·

Reviewed on Jul 26, 2024

The course was great and the explanations were to the point! I would definitely recommend to anyone starting with cameras and vision!

Frequently asked questions

To access the course materials, assignments and to earn a Certificate, you will need to purchase the Certificate experience when you enroll in a course. You can try a Free Trial instead, or apply for Financial Aid. The course may offer 'Full Course, No Certificate' instead. This option lets you see all course materials, submit required assessments, and get a final grade. This also means that you will not be able to purchase a Certificate experience.

When you enroll in the course, you get access to all of the courses in the Specialization, and you earn a certificate when you complete the work. Your electronic Certificate will be added to your Accomplishments page - from there, you can print your Certificate or add it to your LinkedIn profile.

Yes. In select learning programs, you can apply for financial aid or a scholarship if you can’t afford the enrollment fee. If fin aid or scholarship is available for your learning program selection, you’ll find a link to apply on the description page.

Financial aid available,