利用剩余背景层灰度偏差较小的特点作位平面编码。
Then we employ bit plane encoder (BPE) considering the relatively small deviation of the remaining background.
利用剩余背景层灰度偏差较小的特点作位平面编码。
Then Bit Plane Encoder(BPE) was employed considering the relatively small deviation of the remaining background.
为此提出了一种基于对象的精细可伸缩性编码方法,该方法将对象编码与位平面编码相结合。
This paper presents a new Fine Granular Scalable coding based on the image object, which incorporate the image object coding with the Bit plane coding.
为降低比特率,本文提出四种有效的BTC算法,以降低对每个图像块的两个量化电平和位平面编码所需的比特数。
In order to reduce the bit rate, on the one hand, simple look-up-table methods are presented to code the BTC quantized data of a block.
研究了现有的位平面编码VLSI结构,设计了一种条带列与编码通道全并行的VLSI结构,解决了内部存储资源占用率高的问题。
According to the research on the existing VLSI architecture of the bit-plane coding, a new VLSI architecture is proposed in which stripe-column and coding are both implemented in parallel.
这种编码概念被称为UCS - 4;四个八位元用来表示指定组、平面、行和单元的每个字符。
This coding concept is called UCS-4; four octets of bits are used to represent each character specifying the group, plane, row and cell.
像所有ucs平面那样,包含了256行,其中每行包含256个单元,字符仅仅按照BMP中的行和单元的八位元在单元中被编码。
This BMP, like all UCS planes, contains 256 rows each of 256 cells, and a character is coded at a cell by just the row and cell octets in the BMP.
为实现快速编码,该文提出一种位平面、过程双重并行编码方法,可以大幅度提高编码速度。
For fast encoding, the bit-plane and pass dual-parallel approach is presented in this paper, which reduces the encoding time significantly.
为实现快速编码,该文提出一种位平面、过程双重并行编码方法,可以大幅度提高编码速度。
For fast encoding, the bit-plane and pass dual-parallel approach is presented in this paper, which reduces the encoding time significantly.
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