The data retrieved from the device is very critical and requires a CRC check.
从设备获取的数据是非常重要的,需要一个CRC检查。
Further more Depending on CRC check in unfixed position, PE file judes and recover itself if modified.
同时用变位置的CRC校验算法来判别文件是否被修改并实现对被修改文件的自我恢复。
CRC Check Code algorithm, take the matrix transposition algorithm, frequently used in network communications.
校验码算法,采取矩阵移位算法,网络通讯中经常使用。
This paper present a new method which can accomplish the CRC check with only one 64 - bit parallel CRC check unit.
本文提出了一种只需64位的校验单元即可实现其CRC校验的方法。
It makes the system run safe. This paper describes the algorism of CRC check and the algorism we adopted improves the veracity of data and the efficiency of system.
本文阐述了CRC校验算法,所采用的算法提高了数据的准确性和系统效率。
The reliability of the protocol can be ensured by use of the frame format, CRC check, and correct function of selecting and sending repeatedly. The protocol can be extended to a certain extent.
通过使用帧方式、CRC校验和选择重发纠错功能保证了协议的可靠性,该协议在一定程度上还可得到扩充。
Cyclic redundancy check (CRC) values are computed for critical data structures, improving the odds of detection of data corruption.
循环冗余检验(crc)值针对关键数据结构计算,提高了数据崩溃的探测几率。
Checksum computes a 32-bit cyclic redundancy check (CRC) on the entire row image on the page.
校验和对页上的整个行图像上计算32位循环冗余检查(CRC)。
Standard data chain and CRC-16 check mode are used in inquiry control by the central station at the drilling company.
数据网由中心站(钻井公司)采用轮询方式控制,使用标准的数据链路控制规程,和CRC-16校验方式。
This paper puts forward three table-based software algorithms to create cyclic redundancy check(CRC) code, and analyses efficiency of the algorithms.
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。
For the rate reduction induced by using cyclic redundancy check (CRC) in coded cooperation, an improved threshold selection relaying scheme is proposed for coded cooperation.
针对编码协作中采用循环冗余校验(CRC)方案会降低系统传输速率的问题,提出了一种改进的门限选择中继方案。
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。
Cyclic redundancy check (CRC) is of a side application in the digital communications technology.
循环冗余校验在数字通信技术中有着广泛的应用。
In the software part, the working flow of the system is introduced first. And then the two key technologies, Cyclic Redundancy Check (CRC) method and Anti-Collision method are presented.
在软件部分首先介绍了整个系统的工作流程,然后对两项关键技术:循环冗余校验(crc)法和防碰撞法进行了阐述。
In this paper, it studies one of the error-check controls of the communications of computers network-Cyclic Redundancy check (CRC).
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)。
WEP uses CRC 32 checking code inside the RC4 encipher system to provide message integrity check.
WEP通过在RC4密码系统内部设置CRC32循环冗余校验的方式来实现报文完整性验证。
Layer2 frame cannot be processed by a receiver until all bits have been received by the receiver and a cyclic redundancy check (CRC) has been performed.
二层的帧必须等到所有比特全部接收通过CRC(环冗余校验)验后才能被处理。
For its simple coding and low rate of error identification, the Cyclic Redundancy Check (CRC) is widely used in digital communication system.
循环冗余校验CRC由于编码简单、误判概率低,在通信系统中得到了广泛的应用。
The system can be joined in two different can at the same time. In order to improve communication dependability, the system adopts the redundancy check of CRC in systematic communication.
系统可同时连接于两个不同的CAN网络,为提高通信可靠性,软件中采用CRC冗余校验。
A Layer 2 frame cannot be processed by a receiver until all bits have been received by the receiver and a cyclic redundancy check (CRC) has been performed.
二层的帧必须等到所有比特全部接收通过CRC(循环冗余校验)效验后才能被处理。
The disadvantage is that the cut-through operation does not check for CRC errors, which increases the amount of runt and error frames on the network.
不利因素也随之产生,由于直通模式不做CRC校验,网络上的畸形和错误帧将增加。
This tools checking and source control using check sum algorithm like MD5, SHA and CRC.
这个工具通过使用检验和算法,如MD 5,SHA和CRC来进行校验和源代码控制。
The full name of CRC is Cyclic Redundancy Check, which is characterized by: Error ability, overhead small.
CRC的全称是循环冗余校验,其特点是:检错能力极强,开销小。
In order to improve the communication of single-chip microcomputers, we designed an algorithm of CRC (Cyclic Redundancy Check).
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).
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。
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