在计算机网络通信中,为了降低数据通信线路传输的误码率,可以采用一种差错检测控制———循环冗余码校验(CRC)。
In this paper, it studies one of the error-check controls of the communications of computers network-Cyclic Redundancy check (CRC).
为了提高单片机之间的通信速度,设计了一种循环冗余码校验CRC (Cyclic RedundancyCheck)算法。
In order to improve the communication of single-chip microcomputers, we designed an algorithm of CRC (Cyclic Redundancy Check).
本文提出了基于字节查表生成循环冗余校验码(CRC码)的三种软件算法,并对其效率进行了分析。
This paper puts forward three table-based software algorithms to create cyclic redundancy check(CRC) code, and analyses efficiency of the algorithms.
以国际标准CRC-CCITT循环冗余校验码为研究对象,利用近世代数多项式理论证明其奇偶校验性质、最小码距和纠正单比特错误能力。
The polarities check ability, minimum code distance and capacity of correct single bit error of CRC-CCITT are proved by using galois field polynomial theory.
以国际标准CRC-CCITT循环冗余校验码为研究对象,利用近世代数多项式理论证明其奇偶校验性质、最小码距和纠正单比特错误能力。
The polarities check ability, minimum code distance and capacity of correct single bit error of CRC-CCITT are proved by using galois field polynomial theory.
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