帧数据区含有一个数据体。
这一地址信息还决定了本帧数据沿互联网以何种路径传输。
This address information also determines how the frame is routed through the Internet.
当您运行游戏,每一帧数据被记录,最后则会显示几百帧的历史。
When you run a game, data is recorded each frame, and the history of the last several hundred frames is displayed.
ISP的网关使用最终网络地址来决定这一帧数据即将使用的最佳路径。
The ISP's gateway USES the final net location to determine the best route for the frame to use.
采集线程捕获帧数据标志信号并发送到主线程,主线程收消息,执行相应的处理。
The sign signal was captured by gathering thread and sent the message to main thread, and main thread received the message and processed it accordingly.
允许一个应用程序通过访问帧缓冲区(一般一屏就是一帧)获取屏幕截图等帧数据。
Allows an application to take screen shots and more generally get access to the frame buffer data.
系统利用两组外部SRAM对帧数据进行缓存,采用乒乓操作来实现视频的实时连续显示。
The system makes use of two group of outer SRAM to buffer the frame data, and USES ping-pong operation of the SRAM to achieve the video display in series.
数据的编码采用了曼彻斯特编码格式,每帧数据包括同步头、有效数据位和冗余校验位三部分。
Manchester code was used in data coding, each frame of data included synchronous head, valid data bits and cyclic redundancy parity bits.
第一个74hc164把第一帧数据并行输出,LED1显示该数据(发送时序如图2所示)。
The first 74hc164 put the first frame data parallel output, LED1 showed that the data (sending timing as figure2shows).
PLC每接收到一帧数据,对该帧数据进行异或校验,如果无误则存送到指定缓冲区,如果有误则请求重新发送。
When PLC receive one frame data, it checkout the frame. If the data is correct, it is saved in the appointed buffer. If not, PLC request the IPC resend it.
甚短距离传输(VSR)是一种用于短距离(约30 0m)内进行STM- 6 4帧数据的光传输系统。
Very short reach (VSR) is an optical communication system to transmit STM-64 data over a short distance (about 300 m).
将信息论和编码理论应用于无线家庭安防系统中,给出了位码编码、帧数据编码的编码准则、具体编码方法及解码原理。
Appling the theory of information and code. this paper gives the code rule, detail code methods and decode principle of bit code and frame data code.
运动矢量修正技术:码率调整型转码算法可以屏蔽网络的异构性,但导致参考帧数据发生变化,需要重新进行运动估计。
Motion Vector Refinement: Bit rate adaptation transcoding adapt the network heterogeneity, which makes the reference frame changed. The motion estimation is needed.
对于通信接口芯片设计,数据帧依照时间顺序依次到达,因此,采用流水线数据通道对帧数据进行处理是有效的优化方法。
Because data frames arrive in term of time slot for the communication interface integrated chips, the pipeline data path is an effective optimization method.
对于通信接口芯片设计,数据帧依照时间顺序依次到达,因此,采用流水线数据通道对帧数据进行处理是有效的优化方法。
Because data frames arrive in term of time slot for the communication interface integrated chips, the pipeline data path is an effective optimization method.
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