S +树:表示大图片的有效结构

W. D. Jonge, P. Scheuermann, A. Schijf
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引用次数: 35

摘要

摘要:本文研究了驻留在二级设备上的像素树的有效编码和操作。我们引入了一种新的结构,S+树,它由图片(数据)的分页线性树码表示和索引组成,索引的条目表示嵌入在线性表示中的一些叶码之间的分隔符。我们的方案通过提供dr表达式的空间效率和B+树的索引功能,结合了树码和叶码表示的优点,从而允许对图像数据的紧凑表示进行简单的顺序和随机访问。我们描述了一种算法,它从一个有序的黑叶码列表中编码我们的结构。S+-树的分页结构(其中每个数据页都是一个自包含的树)允许设计一种高效的随机访问搜索算法来查找对应于象限或半象限的给定区域的颜色。搜索算法本质上是非递归的,它可以被优化为按字节而不是按位工作。我们还提出了一种对存储在二级设备上的大图片进行翻译操作的有效方法,并用S+树结构说明了其效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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S + -trees: an efficient structure for the representation of large pictures
Abstract We are concerned in this paper with the efficient encoding and manipulation of pixel trees that are resident on secondary devices. We introduce a new structure, the S+-tree, that consists of a paged linear treecode representation of the picture (data) and an index whose entries represent separators among some of the leafcodes implicitly embedded in the linear representation. Our scheme combines the advantages of treecode and leafcode representations by offering the space efficiency of DR-expressions and the indexing capabilities of B+-trees, thus permitting easy sequential and random access to a compact representation of pictorial data. We describe an algorithm which encodes our structure from an ordered list of black leafcodes. The paged structure of the S+-tree, whereby each data page is a self-contained tree, enables to design an efficient random access search algorithm to find the color of a given region that corresponds to a quadrant or semi-quadrant. The search algorithm is non-recursive in nature and it can be optimized to work bytewise instead of bitwise. We also present an efficient method for performing translation operations on large pictures stored on secondary devices and illustrate its efficiency with the S+-treestructure.
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