The popular lossy-JPEG image compression arithmetic and phase-shifting technology are introduced.
简介了当今流行的JPEG有损压缩技术和相移技术。
The research on image compression arithmetic is a hotspot, there are many mature algorithms have been applied to practice, however, each of them has its own applicability and limitations.
图像压缩的算法研究是一个热点,有许多成熟的算法已经运用于实践中,但每一种算法都有其适用性和局限性。
Based on linear prediction and arithmetic coding of hyperspectral image compression, and I hope useful for you.
一种基于线性预测和算术编码的高光谱图像压缩方法,希望对您有用。
The system uses CCD for getting digital image, uses a 16 bit fix-point DSP to perform fast discret cosine transform(DCT) arithmetic and image encoding and realizes a fast image compression in end.
系统使用CCD获取原始数字图像数据,采用快速算法实现了核心的二维DCT变换,经过编码后,在一个16位定点DSP上实现了快速图像压缩。
There have been many techniques of image compression based upon back propagation arithmetic.
基于误差反向传播算法对图像进行压缩的工作已有很多。
In this thesis the medical ECG data and medical MRI image data were compressed with corresponding lossless compression arithmetic.
本文通过对医学心电数据和医学MRI图像数据的分析,采用相应的无损压缩算法对其进行压缩。
We use period extension or symmetry extension in image processing. Our arithmetic has perfect properties that validated by numeric experiments in image compression.
图像的边界延拓我们采取周期延拓或对称延拓方式,图像压缩的数字实验验证了算法的优良性。
It's the main purpose of this paper to search efficiency arithmetic for infrared-image compression; meanwhile, we aim to implement the arithmetic on TI DSP.
本文研究的主要目的是寻找一种适合于远程红外线监控设备的图像压缩算法并采用DSP实现图像压缩和解压缩。
It's the main purpose of this paper to search efficiency arithmetic for infrared-image compression; meanwhile, we aim to implement the arithmetic on TI DSP.
本文研究的主要目的是寻找一种适合于远程红外线监控设备的图像压缩算法并采用DSP实现图像压缩和解压缩。
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