Forward error correction is achieved using a novel combination of Reed-Solomon and Turbo FEC coding techniques.
前向纠错通过一种Reed - Solomon算法和增强FEC编码技术的新颖结合得以实现。
Using this model, we analyzed the influence of some important parameters, such as packet size, forward error correction coding scheme and contention window size, to the system performance.
利用这一模型,分析了包长、纠错编码方式的选取以及竞争窗口长度等重要参数的选取对系统性能的影响。
A higher level of service, such as Reed-Solomon coding to support combined error detection and correction, could also be provided.
而且,差错校验功能还能够提供更高水平的服务如支持错误检查和错误修正的里德索罗门编码。
A kind of error correction coding methods in the communication between singlechip′s serialport and PC in the electric spark forming machine control system is proposed.
该方法采用纠错编码支持向量机的多类分类技术,降低了经验风险,能对误差进行自动修正,有效地提高了识别率和识别速度。
In CD technology, there is error correction coding (ECC) on the disc as a means of correcting problems when they occur.
在光盘技术中,光盘上有着错误校正码(ecc),作为错误出现时对其进行校正的手段。
Meanwhile, an error correction coding and decoding table-checking method suitable to PDF417 was proposed, which could decide any code corresponding to the power of the element in GF (929).
同时提出一种适用于PDF417纠错编码和译码的查表方法,可以简单确定任意码字在GF(929)内所对应的本原元的幂次。
Studying of Error Correction Coding is a work combined with strong theory and practice.
纠错码是信息论的一个重要分支,研究纠错码是一项理论性与实践性均很强的工作。
A new method is proposed for error correction coding based on shape preserving characteristic of the phase-only transform.
提出了一种利用相位变换形状保持特性的错误恢复编码新方法。
In addition network coding based multicast can possess the ability of error correction.
另外基于网络编码的多播网络可以具备纠错性能。
So far, the theory of quantum error-correction coding has become more and more perfect. Many corresponding methods of classical coding techniques have been found in quantum field.
目前量子纠错编码理论已日趋完善,许多经典的编码技术在量子领域中都可以找到相应的编码方法。
To further enhance the robustness, BCH error correction coding techniques, redundant embedding, and an array of recombinant techniques are used.
为进一步增强算法的鲁棒性,还使用了BCH纠错编码技术、冗余嵌入和数组重组技术。
As a kind of quantum coding scheme, quantum error-correction coding is the foundation of realization of quantum communication and quantum computation.
量子纠错编码作为其中的一种量子编码方案,是量子通信和量子计算实用化的基础。
Error correction coding is used to increase the spectral efficiency, and it can avoid the spectral decrease with the increase of the length.
纠错编码技术可以提高光码分多址系统的频谱效率,并可以抑制频谱效率随码长的增加而减小的特性。
Such high data rate makes it challenging for channel coding design. The error correction coding for LTE should involve both the characteristics of low decoding complexity and good performance.
为了实现实时可靠通信,LTE的纠错编码要求具有:复杂度低、码字随机性好等特点。
Then error correction coding method is presented and discussed in detail to overcome the disadvantage, so the performance of the communication system is greatly improved.
提出了一种改进的复合型水印嵌入方法,引入了通信中的纠错编码技术,在很大程度上增强了鲁棒水印的鲁棒性。
In Chinese national standard for Digital Terrestrial Multimedia Broadcasting (DTMB), irregular Quasi Cyclic LDPC (QC - LDPC) code is used as core part of forward error correction coding.
在中国数字电视广播地面传输标准(DTMB)中,使用了非规则准循环ld P C码(QC-LDPC)作为前向纠错编码的核心部分。
This article mainly introduces three kernel technics. Adaptive Coding and Modulation (ACM), Input Adaptation and a new method of Forward Error Correction.
本文重点介绍了DVB - S2系统中的三项核心技术:自适应编码调制(acm)、输入适配与新的前向纠错编码技术。
This article mainly introduces three kernel technics. Adaptive Coding and Modulation (ACM), Input Adaptation and a new method of Forward Error Correction.
本文重点介绍了DVB - S2系统中的三项核心技术:自适应编码调制(acm)、输入适配与新的前向纠错编码技术。
应用推荐