第三章研究了虚拟仪器的硬件平台。
In chapter three, hardware platform of virtual instrument is studied.
系统硬件平台采用模块化设计。
并通过硬件平台测试其休眠效果。
对控制系统中硬件平台进行了搭建。
Some mainly hardware units of direct torque control system has been built.
最后给出了一个实际的系统硬件平台。
In the end, a practical system hardware platform is presented.
硬件平台的构建基于一体化仪器技术。
The establishment of hardware platform is based on the intergration of instruments.
硬件平台设计是本文的重点。
This article is mainly focus on the hardware platform design.
最终,这两者均采用了类似的软硬件平台。
Ultimately, the two are powered by similar hardware and software platforms.
硬件平台设计了两块基于ARM的开发板。
Two development boards based on ARM have been designed in the hardware platform.
虚拟仪器由通用硬件平台和应用软件组成。
The virtual instrument consists of general hardware platform and application software.
本设计是视频图像处理硬件平台的一部分。
This design is a part of the hardware platform of video image processing.
最后在FPGA硬件平台上实现了该方法。
第二章阐述网络式仪器总线硬件平台的设计。
In chapter two, describes hardware system design of the network-stye instrument bus.
为软件设计提供了一个灵活可靠的硬件平台。
It provides a flexible and reliable hardware platform for software design.
整个硬件平台的模块化程度较高,灵活性好。
The whole hardware platform is modularized and is highly flexible.
传感器节点硬件是整个系统研究的硬件平台。
This part serves as a hardware platform of the entire system.
本文的硬件设计采用X86主板为硬件平台。
最后利用FPGA实现了系统硬件平台设计。
迁移到新的硬件平台,使您的旧系统虚拟克隆。
Migrate to a new hardware platform and make a virtual clone of your old system.
最后利用此硬件平台对系统功能进行了初步验证。
Finally, the hardware platform is used to verify the system function.
系统硬件平台采用了基于网络的分布式体系结构。
The system hardware platform adopted the structure of distributed system based on network.
它还提供详细的硬件平台的视频水印算法的研究。
It also gives detail study of video watermarking algorithm on hardware platform.
本文结构分为硬件平台设计和系统软件设计两部分。
This paper is structured into the hardware design and software platform designed in two parts.
接着介绍了系统实现的硬件平台,及初步测试结果。
Then, paper presentations the system hard platform and the result of the first test.
设计了基于ARM的机器人小车控制系统的硬件平台。
The hardware of the self-tracing robot car control system based on ARM was designed.
在所讨论的硬件平台上,本文分析了系统的软件控制流程。
This paper analyzes the system's software control flow based on hardware platform.
控制系统硬件平台由电机、驱动器、运动控制卡和主机构成。
The control system hardware platform is composed of motor, driver, motion control card and computer.
在数字PF C中,不同算法可以在同一个硬件平台下实现。
In digital PFC system, different control arithmetic can be fulfilled in the same hardware platform.
该硬件平台以dsp为处理核心,CPLD用来完成控制协调。
DSP is the core of the hardware platform; CPLD is used to coordinate and control.
本研究设计的营养液调控系统的硬件平台由上位机和下位机两部分组成。
The hardware platform of nutrient solution control system consists of slave computer and master computer.
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