本文提出了一种相对方向行程编码的压缩方法。
A compression method for relative direction run-encoding is proposed.
一种是利用差累积向量,另一种是利用持续行程编码。
One is based on the accumulative difference vector and the other is based on the use of run-length encoding.
本文在分析和比较多种信息编码技术的基础上,提出了一种自适应二维行程编码方法。
Based on the analysis of several information coding techniques, an adaptive 2d run-length coding method is presented.
行程编码(RLE)压缩算法需要非常少的处理器时间,适用于在连续位置重复许多相同字节值的数据。
The run length encoding (RLE) compression algorithm requires very little processor time and works well for data that has lots of the same byte value repeated in consecutive locations.
同时,给出了编码和译码的算法,并且与等值线编码和一维行程编码的压缩效果进行了比较。
The comparison of the compression efficiency between the new method and those of the contour encoding and one-dimensional run length encoding is also made.
本文引入并用微机实现了泛漫算法,它可以方便地实现从矢量数据到以物体为中心的行程编码的转换和存贮。
With the help of microcomputer, this paper introduces and realizes the flood algorithm, which can convert vector data to object - centred run length encoding rapidly and store it conveniently.
从二值图像延伸到灰度图像,我们根据小波变换后小波系数的特点,将行程编码算法进行了改进,结合小波变换对灰度图像进行编码。
We code the gray images combined improved run-length encoding algorithm with wavelet transform according to the characteristics of the wavelet transform coefficients.
基于对传统行程编码方法的分析可知,必须对其进行一定改进才能保证对数据的有效压缩,改进后的编码方法可称为简单有损行程编码。
Based on the analysis of run-length encoding method, it must be improved to ensure effectively compression for data. The improved method is called Simple Loss RLE method.
提出用行程段信息表示字符图像的编码方法,以二进制形式存取,能节省大量的文件存储空间。
A method to code character image based on information of run length is presented, which can save a mass of file Spaces with binary form to access data.
采用编码器测量行程,计算并显示带卷直径,保证带卷对推开卷机卷筒中心。
Using encoder to measure stroke, to do calculation to display coil diameter so that the coil can be guaranteed to align with the centre of uncoiler barrel.
通过变频器、交流伺服电机、行程光电编码器等设备组成了行程控制系统,实现了可移动台架位置的精确控制。
Travelling control system is composed of a transducer, an AC servo motor, an optical encoder and other components, which achieves precise control of the movable bench's position.
通过变频器、交流伺服电机、行程光电编码器等设备组成了行程控制系统,实现了可移动台架位置的精确控制。
Travelling control system is composed of a transducer, an AC servo motor, an optical encoder and other components, which achieves precise control of the movable bench's position.
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