Shape Detection in Computer Vision Using the Hough Transform

  • V. F. Leavers

Table of contents

  1. Front Matter
    Pages i-xiv
  2. V. F. Leavers
    Pages 1-18
  3. V. F. Leavers
    Pages 19-38
  4. V. F. Leavers
    Pages 39-64
  5. V. F. Leavers
    Pages 65-81
  6. V. F. Leavers
    Pages 83-111
  7. V. F. Leavers
    Pages 113-135
  8. V. F. Leavers
    Pages 137-172
  9. Back Matter
    Pages 173-201

About this book


Shape detection techniques are an important aspect of computer vision and are used to transform raw image data into the symbolic representations needed for object recognition and location. However, the availability and application of research data relating to shape detection has traditionally been limited by a lack of computational and mathematical skill on the part of the intended end-user. As a result progress in areas such as the automation of visual inspection techniques, where shape detection couls play a pivotal role, has been relatively slow. In this volume, Violet Leavers, an established author and researcher in the field, examines the Hough Transform, a technique which is particularly relevant to industrial applications. By making computational recipes and advice available to the non-specialist, the book aims to popularize the technique, and to provide a bridge between low level computer vision tasks and specialist applications. In addition, Shape Detection in Computer Vision Using the Hough Transform assesses practical and theoretical issues which were previously only available in scientific literature in a way which is easily accessible to the non-specialist user. Shape Detection in Computer Vision Using the Hough Transform fills an obvious gap in the existing market. It is an important textbook which will provide postgraduate students with a thorough grounding in the field, and will also be of interest to junior research staff and program designers.


Hough transform Radon transform Shape Detection algorithms computer vision object recognition

Authors and affiliations

  • V. F. Leavers
    • 1
  1. 1.Department of PhysicsKing’s College LondonLondonUK

Bibliographic information