外文翻译----数字图像处理方法的研究(原文+译文).doc
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外文翻译----数字图像处理方法的研究(原文+译文),1introductioninterest in digital image processing methods stems from two principal application areas: improvement of pictorial information for human interpretat...
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1 Introduction
Interest in digital image processing methods stems from two principal application areas: improvement of pictorial information for human interpretation; and processing of image data for storage, transmission, and representation for autonomous machine perception. This chapter has several objectives: (1)to define the scope of the field that we call image processing; (2)to give a historical perspective of the origins of this field; (3)to give an idea of the state of the art in image processing by examining some of the principal area in which it is applied; (4)to discuss briefly the principal approaches used in digital image processing; (5)to give an overview of the components contained in a typical, general-purpose image processing system; and (6) to provide direction to the books and other literature where image processing work normally is reporter.
1.1 What Is Digital Image Processing?
An image may be defined as a two-dimensional function, f(x, y), where x and y are spatial (plane) coordinates, and the amplitude of f at any pair of coordinates (x, y) is called the intensity or gray level of the image at that point. When x, y, and digital image. The field of digital image processing refers to processing digital images by means of a digital computer. Note that a digital image is composed of a finite number of elements, each of which has a particular location and value. These elements are referred to as picture elements, image elements, pels, and pixels. Pixel is the term most widely used to denote the elements of a digital image. We consider
1 绪论
数字图像处理方法的研究源于两个主要应用领域:其一是为了便于人们分析而对图像信息进行改进;其二是为了使机器自动理解而对图像数据进行存储、传输及显示。
1.1 数字图像处理的概念
一幅图像可定义为一个二维函数f(x, y),这里x和y是空间坐标,而在任何一对空间坐标f(x, y)上的幅值f称为该点图像的强度或灰度。当x,y和幅值f为有限的、离散的数值时,称该点是由有限的元素组成的,没一个元素都有一个特定的位置和幅值,这些元素称为图像元素、画面元素或象素。象素是广泛用于表示数字图像元素的词汇。在第二章,将用更正式的术语研究这些定义。
视觉是人类最高级的感知器官,所以,毫无疑问图像在人类感知中扮演着最重要的角色。然而,人类感知只限于电磁波谱的视觉波段,成像机器则可覆盖几乎全部电磁波谱,从伽马射线到无线电波。它们可以对非人类习惯的那些图像源进行加工,这些图像源包括超声波、电子显微镜及计算机产生的图像。因此,数字图像处理涉及各种各样的应用领域。
图像处理涉及的范畴或其他相关领域(例如,图像分析和计算机视觉)的界定
Interest in digital image processing methods stems from two principal application areas: improvement of pictorial information for human interpretation; and processing of image data for storage, transmission, and representation for autonomous machine perception. This chapter has several objectives: (1)to define the scope of the field that we call image processing; (2)to give a historical perspective of the origins of this field; (3)to give an idea of the state of the art in image processing by examining some of the principal area in which it is applied; (4)to discuss briefly the principal approaches used in digital image processing; (5)to give an overview of the components contained in a typical, general-purpose image processing system; and (6) to provide direction to the books and other literature where image processing work normally is reporter.
1.1 What Is Digital Image Processing?
An image may be defined as a two-dimensional function, f(x, y), where x and y are spatial (plane) coordinates, and the amplitude of f at any pair of coordinates (x, y) is called the intensity or gray level of the image at that point. When x, y, and digital image. The field of digital image processing refers to processing digital images by means of a digital computer. Note that a digital image is composed of a finite number of elements, each of which has a particular location and value. These elements are referred to as picture elements, image elements, pels, and pixels. Pixel is the term most widely used to denote the elements of a digital image. We consider
1 绪论
数字图像处理方法的研究源于两个主要应用领域:其一是为了便于人们分析而对图像信息进行改进;其二是为了使机器自动理解而对图像数据进行存储、传输及显示。
1.1 数字图像处理的概念
一幅图像可定义为一个二维函数f(x, y),这里x和y是空间坐标,而在任何一对空间坐标f(x, y)上的幅值f称为该点图像的强度或灰度。当x,y和幅值f为有限的、离散的数值时,称该点是由有限的元素组成的,没一个元素都有一个特定的位置和幅值,这些元素称为图像元素、画面元素或象素。象素是广泛用于表示数字图像元素的词汇。在第二章,将用更正式的术语研究这些定义。
视觉是人类最高级的感知器官,所以,毫无疑问图像在人类感知中扮演着最重要的角色。然而,人类感知只限于电磁波谱的视觉波段,成像机器则可覆盖几乎全部电磁波谱,从伽马射线到无线电波。它们可以对非人类习惯的那些图像源进行加工,这些图像源包括超声波、电子显微镜及计算机产生的图像。因此,数字图像处理涉及各种各样的应用领域。
图像处理涉及的范畴或其他相关领域(例如,图像分析和计算机视觉)的界定