Design of memory exchanging and transmission mode of DMA meets the requirement of high speed, real time, accurate ir image capturing.
换体存储和DMA传输方式的设计满足了高速、实时、准确的红外图像采集的要求。
Some problems about system debugging and application, including the high-speed transmission of multichannel infrared image, real-time display and processing, are solved.
该方法解决了系统调试和应用中多波段红外图像高速传输、实时显示与处理的问题。
By using the general programmable interface (GPIF) of EZ-USB FX2, high speed data transmission for radar image has been achieved.
利用EZ - USB FX2的通用可编程接口(GPIF)达到雷达图像传输的高速要求。
The system USES high-speed USB2.0 interface as image transmission.
系统采用高速usb2.0作为图像传输的接口。
For the problems above-mentioned, this paper study high speed image data transmission and processing technology based FPGA, which has been concerned generally more and more.
本课题针对上述问题,研究基于FPGA的高速图像数据传输与处理技术,该技术越来越受到人们的普遍关注。
With a dual-port RAM, a novel data transmission structure was designed, and ping-pong technique was used to implement the buffering of the high-speed real-time image data.
借助于单片双口RAM,设计了一种新颖的数据传输结构,并利用乒乓技术实现对实时高速图像数据的缓冲。
With a dual-port RAM, a novel data transmission structure was designed, and ping-pong technique was used to implement the buffering of the high-speed real-time image data.
借助于单片双口RAM,设计了一种新颖的数据传输结构,并利用乒乓技术实现对实时高速图像数据的缓冲。
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