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2014 | Buch

Image Motion Processing in Visual Function Kapitel lesen Erstes Kapitel lesen

Computer Vision Analysis of Image Motion by Variational Methods

verfasst von: Amar Mitiche, J.K. Aggarwal

Verlag: Springer International Publishing

Buchreihe : Springer Topics in Signal Processing

Enthalten in: Springer Professional "Wirtschaft+Technik" , Springer Professional "Technik"

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Über dieses Buch

This book presents a unified view of image motion analysis under the variational framework. Variational methods, rooted in physics and mechanics, but appearing in many other domains, such as statistics, control, and computer vision, address a problem from an optimization standpoint, i.e., they formulate it as the optimization of an objective function or functional. The methods of image motion analysis described in this book use the calculus of variations to minimize (or maximize) an objective functional which transcribes all of the constraints that characterize the desired motion variables. The book addresses the four core subjects of motion analysis: Motion estimation, detection, tracking, and three-dimensional interpretation. Each topic is covered in a dedicated chapter. The presentation is prefaced by an introductory chapter which discusses the purpose of motion analysis. Further, a chapter is included which gives the basic tools and formulae related to curvature, Euler Lagrange equations, unconstrained descent optimization, and level sets, that the variational image motion processing methods use repeatedly in the book.

Inhaltsverzeichnis

Frontmatter
Chapter 1. Image Motion Processing in Visual Function
Abstract
Retinal motion comes about whenever we move or look at moving objects. Small involuntary retinal movements take place even when we fixate on a stationary target. Processing of this ever-present image motion plays several fundamental functional roles in human vision. In machine vision as well, image motion processing by computer vision algorithms has in many useful applications several essential functions reminiscent of the processing by the human visual system. As the following discussion sets to point out, computer vision modelling of motion has addressed problems similar to some that have arisen in human vision research, including those concerning the earliest fundamental questions and explanations put forth by Helmholtz and by Gibson about human motion perception. However, computer vision motion models have evolved independently of human perception concerns and specificities, much like the camera has evolved independently of the understanding of the human eye biology and function [1]
Amar Mitiche, J.K Aggarwal
Chapter 2. Background Preliminaries
Abstract
In this preliminary chapter we will give definitions, descriptions, and formulas, concerning curvature, Euler-Lagrange equations, unconstrained descent optimization, and level sets, all fundamental topics and tools underlying the variational methods of motion analysis described in the subsequent chapters.
Amar Mitiche, J.K Aggarwal
Chapter 3. Optical Flow Estimation
Abstract
Optical flow is the velocity vector field of the projected environmental surfaces when a viewing system moves relative to the environment.
Amar Mitiche, J.K Aggarwal
Chapter 4. Motion Detection
Abstract
In the context of motion analysis, the image foreground is the region of the image domain which corresponds to the projected surfaces of the moving environmental objects, and the background is its complement. Motion detection separates the domain of an image sequence into foreground and background. Because it refers to environmental object motion, this general definition is valid for both static and moving viewing systems. When the viewing system is static, the foreground motion is exclusively due to the projected surfaces of the objects in motion. When the viewing system moves, it causes image motion which combines by vector addition with the image motion due to object movement. In this case, foreground detection requires that the motion due to the viewing system movement be accounted for, for instance by subtracting it from the combined image motion so that the residual motion is due to the moving objects only.
Amar Mitiche, J.K Aggarwal
Chapter 5. Tracking
Abstract
Tracking is the process of following objects through an image sequence. In general, one may track the projected surface of an object or its outline, a patch of this surface or a set of points lying on it
Amar Mitiche, J.K Aggarwal
Chapter 6. Optical Flow Three-Dimensional Interpretation
Abstract
Optical flow is the field of optical velocity vectors of the projected environmental surfaces whenever a viewing system moves relative to the viewed environment.
Amar Mitiche, J.K Aggarwal
Backmatter
Metadaten
Titel
Computer Vision Analysis of Image Motion by Variational Methods
verfasst von
Amar Mitiche
J.K. Aggarwal
Copyright-Jahr
2014
Electronic ISBN
978-3-319-00711-3
Print ISBN
978-3-319-00710-6
DOI
https://doi.org/10.1007/978-3-319-00711-3

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