而H4充当通过UART传输Bluetooth数据的标准方法。UART是在规范中定义的来自CSR的专有BCSP协议,支持错误校验和重传。
While H4 serves as the standard method to transmit Bluetooth data over UART as defined in the specifications, the proprietary BCSP protocol from CSR supports error checking and retransmission.
平台为五层结构,分别为现场设备层、数据采集与校验层、数据处理层、数据传输层以及应用层。
The platform is divided into five layers named as locate equipment layer, data collect and check layer, data transaction layer, data transport layer and application layer.
这是一个关于二进制编码的校验问题,通过校验之后,检验是否传输正确。
This is a binary encoded on the check, by check, to verify whether the correct transmission.
对于ic卡而言,数据传输的正确性是很重要的,因此提出了一种用于数据校验的CRC校验实现算法。
This paper provides a realization of CRC verification arithmetic for IC card to ensure the exactness of data transmission.
系统采用半双工式RS- 485总线型通信网络和累加和校验通信算法进行数据传输。
System adopts RS-485 bus communication network which way of communication is half duplexing and accumulate and check-up communication algorithm, which are carried on data transmission.
校验和是传输单位里二进制码(比特)的总数,因此接收者可以检验是否一样的比特数达到。
A checksum is a count of the number of bits in a transmission unit that is included with the unit so that the receiver can check to see whether the same number of bits arrived.
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。
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.
若用奇校验,则当接收端收到这组代码时,校验“1”的个数是否为奇数,从而确定传输代码的正确性。
If using odd parity, then when the receiver receives this set of code, check the "1" if the number is odd, to determine the transmission code is correct.
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).
同时,在方案中还说明如何通过发送纠错奇偶校验消息来达到在信道差错情况下的可靠消息传输。
In addition, we show how to achieve reliable message transmission in the presence of channel errors by sending an error-correcting parity message in the secure broadcast scheme.
BIP- 8执行以前的同步传输信号电平1 (STS - 1)帧的偶数奇偶校验。
BIP-8 performs an even-parity check on the previous Synchronous Transport Signal level 1 (STS-1) frame.
无线数据传输的数据校验采用了CRC校验来完成数据校验。
CRC checkout is used to carry out checkout of data during wireless transportation.
增加数据包校验位,保证数据传输的一致性;通过正向替换和逆向替换消除并恢复数据中存在的保留关键字;
The data packet increased checking parity can ensure data consistency in transmission, to remove and recover a reserved keyword of data though the positive replacement and reverse replacement.
奇偶校验是一种校验代码传输正确性的方法。
Parity is a method of checking the correctness of the code transmission.
根据被传输的一组二进制代码的数位中“1”的个数是奇数或偶数来进行校验。
Be transmitted according to a set of binary digital code of "1" bits is odd or even to verify.
传输中出现的任何差错可以被校验修正。
在调制解调器对调制解调器的通信中,奇偶校验通常是传输发生之前发送方和接收方必须同意的参数之一。
In modem-to-modem communications, parity is often one of the parameters that must be agreed upon by sending parties and receiving parties before transmission can take place.
奇偶校验是一个错误检查过程,其中每组无错传输位的1的数目必须始终相同,即或奇或偶。
Parity is an error-checking procedure in which the number of 1s must always be the same—either even or odd—for each group of bits that is transmitted without error.
在异步传输时,一个简单的错误发现原来叫做奇偶校验被运用。
In asynchronous transmission, a simple error -detecting scheme called parity can be used...
本论文主要阐述了一种可远程传输数据的电能表校验系统的主要功能、误差检验方法、硬件电路、软件流程、短消息编码和测量误差分析。
In the thesis, we mainly describe the function, error test method, hardware circuit, software flow, coding message and measurement error analysis of the system.
本论文主要阐述了一种可远程传输数据的电能表校验系统的主要功能、误差检验方法、硬件电路、软件流程、短消息编码和测量误差分析。
In the thesis, we mainly describe the function, error test method, hardware circuit, software flow, coding message and measurement error analysis of the system.
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