THE COMPACT BINTREE REPRESENTATION: AN EFFECTIVE TECHNIQUE FOR IMAGE EXPRESSION

doi:10.6046/gtzyyg.1995.03.09

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Abstract In this paper, a new technique for image expression──compact bintree representation is introduced, the encoding methods are given and the image operation process based on set of CBR codes are discussed. Finally, the comparison and analysis are shown that the space and time efficiency of CBR is higher than other techniques.

Keywords SAR image Roads Edge detection Multi-channel

Issue Date: 02 August 2011

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	ZHANG Guang-Wei
	DENG Ka-Zhong
	ZHANG Yong-Hong
	YU Hai-Kun
	LIU Zhen-Jun
	ZHANG Yong-Jun
	ZHAO Bai-Min

Cite this article:

ZHANG Guang-Wei,DENG Ka-Zhong,ZHANG Yong-Hong, et al. THE COMPACT BINTREE REPRESENTATION: AN EFFECTIVE TECHNIQUE FOR IMAGE EXPRESSION[J]. REMOTE SENSING FOR LAND & RESOURCES, 1995, 7(3): 47-54.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.1995.03.09 OR https://www.gtzyyg.com/EN/Y1995/V7/I3/47

[1] Samst H. The quadtree and related hierarchical data structures, ACM Comput. Surv. 1984; 16(2).

[2] Knowlton K. Progressive transmission of gray-scale and binary pictures by simple, efficient, and lossless encodi5tg schemes, Proc. IEEE 1980. 68.

[3] Kawaguchi E and Endo T. On a method of binary picture representation and its application to data compression, IEEE Trans. Pattern Anal. Mach. Inte. 1980; 2(1).

[4] Gargantini I. An effective way to represent quadtrees, Commun. ACM 1982; 25(12).

[5] Ouksel M. The interpolation-based bintree and encoding of binary images, Graphical Models and Image Processing, 1992; 54(1).

[6] Klinger A and Dyer C R. Experiment on picture representation using regular decomposition, Compurer Graphics and Image Processing, 1976;(5)

[7」杨凯等.遥感图像处理和方法,北京:测绘出版社,1988.

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