设计实现了一种高速图像采集装置,并且简化了系统的硬件结构,提高了装置的实时性。
Finally, system teat shows that the designed system in high speed image collection is effective, and the system hardware structure is simple, well as the real-time performance is improved greatly.
使用高速图像采集卡,该方法可应用于斜光轴动态位移测量,拓展了数字散斑相关方法的应用范围。
It also fits for dynamic displacement measurement when a high-speed image card was used. This technology expands digital speckle correlation method's application field.
基于FPGA的嵌入式SOPC方案进行高速图像采集与门禁控制,设计开发了人脸门禁考勤控制管理系统。
Based on high-speed image gathering and access control, by adopting the FPGA embedded SOPC plan, the human face attendance access control management system was developed.
由于开关电弧的发光特性和电器触头系统及灭弧室的反光特性,使从高速图像采集系统拍摄到的图像中很难观察到电器触头。
It's difficult to find contact from the image photographed by high-speed image sampling system because of the light reflection characteristics of switching arc, contact and interrupter.
在信号测量、图像处理、音频信号处理等一些高速、高精度的测量中,都需要进行高性能数据采集。
High-performance data acquisition is needed in some high speed and high precision measurements when signal measurements, image manipulation and audio frequency signal process are taken.
介绍了基于FPGA的红外视频图像高速采集及预处理电路的总体结构。
The structure of high speed infrared image acquired and pre-process system based on FPGA is presented.
本文介绍了一种应用在数据采集系统中的USB2.0接口设计,并提出了一种DMA方式下实现超声内窥镜高速图像传输的新方法。
The paper describes the design of a USB2.0 interface which applied in the data acquisition system, and proposes a novel method for implementing high-speed image transferring by DMA.
高速红外图像采集系统是红外信号处理与信息处理的基础。
High-speed infrared image acquisition system is the basis of the infrared signal processing and information-processing.
实验表明:红外图像高速采集系统应用方便、工作可靠,满足了性能指标要求。
The experimental result shows that the high-speed infrared image acquisition system works expediently and reliably, and it has achieved the demand of high performance.
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。
Design of memory exchanging and transmission mode of DMA meets the requirement of high speed, real time, accurate ir image capturing.
本文基于机器微视觉的MEMS动态测试系统,设计了一套频闪驱动电路,用于采集高速运动的MEMS器件的清晰图像。
Based on MEMS dynamic testing system this paper designs a set of stroboscopic driving circuits to acquire clear image of high speed MEMS device.
CCD传感器采集的图像信号经数字信号处理器(DSP)实时处理,通过SCSI协议记录到高速SCSI设备上。
The real-time image signal gathered by CCD-Sensor was processed with DSP (digital signal processor), and then recorded on SCSI device by SCSI protocol.
本文介绍了用于激光三维图像数据采集系统中的硬件数据补偿电路和实现高速串行通讯的RS- 422接口电路。
In this paper we mainly discuss the data compensating principle and its circuit accomplishment, RS-422 interface adaptor which are used in a high-speed data acquisition system.
外同步CCD数据采集系统由具有外同步功能的线阵CCD图像传感器和高速数据采集器两大部分组成。
External sync CCD data acquisition System consists of linear CCD image sensor with external sync function and high speed data acquisition device.
很多嵌入式系统,特别是应用于图像处理与高速数据采集等场合的嵌入式系统,都需要高速缓存大量的数据。
Many Embedded Systems, especially those used in image processing and high-speed data acquisition, need to cachet extensive quantity of data at high speed.
要对图像进行采集就需要一种高速的,能进行长时间、大吞吐量数据传送的计算机接口。
In order to acquire image, a kind of high-speed computer interface supporting long time and high throughput data transferring is needed.
设计了采用SDRAM进行图像缓存的方法,实现高速高分辨率图像的采集。
The image is buffered using SDRAM and the high-speed high-resolution image-acquisition has been implemented.
使用高速摄像仪采集了板坯连铸结晶器水模内气泡运动的图像,对图像进行了数字处理。
Images of bubble movement in a water model of slab continuous casting mold were acquired by a high speed video camera and processed by image processing software.
系统采用32位嵌入式微处理器arm直接控制CMOS图像传感器,实现图像数据的高速采集。
To implement image acquisition in high speed, the CMOS sensor is directly controlled by ARM which is embedded processor with 32 bit.
结果表明,该实验系统原理可行,能对可见光和紫外图像进行高速采集和实时隔合。
It can realize the highspeed video signal sampling and real-time image fusion for visible and UV images.
利用FPGA完成复杂且高速的逻辑控制及时序设计,将采集的图像根据视频信号原理进行裁剪并存储在SRAM中。
FPGA is used to achieve the complex and high-speed logic control and the design of time sequence, with grabbed digital video signal cut and stored in SRAM, under the principles of the video signal.
本文研究的目的:为高速图像识别系统提供一种能高速完成图像采集的设备方案。
Studied in this thesis is the design of line-sain CCD camera cable of performing high-speed image capturing.
为了解决高速图像的实时采集、远距离传输等问题,我们自主设计并开发了分布式高速图像实时采集系统。
The high speed, real time image capturing system based on distributed is designed in order to resolve the issue of high-speed image capturing in real-time and remote distance transmitting.
为了解决高速图像的实时采集、远距离传输等问题,我们自主设计并开发了分布式高速图像实时采集系统。
The high speed, real time image capturing system based on distributed is designed in order to resolve the issue of high-speed image capturing in real-time and remote distance transmitting.
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