The programs of upper computer.
上位计算机程序。
Design communication interface software of upper computer.
上位机通信接口软件的开发。
The system consists of the formation channels and upper computer.
该系统由化成通道(下位机)和上位机组成。
The system hardware was composed of upper computer and lower computer.
系统硬件由上位机和下位机两部分组成。
The upper computer, PC microcomputer, was the headquarters of the system.
上位机采用PC机,是系统的指挥中心;
The "three-remote" technique has been realized through the upper computer.
通过上位机,对电源系统实现了“三遥”。
The upper computer could be used for real-time control of some key parameters by GUI.
上位机控制台提供图形界面可以实现关键参数的实时调控。
The upper computer software with good man-machine interface is developed using VB6.0.
采用VB6.0开发了具有良好人机界面的上位机软件;
The system includes the upper computer software, the MCU circuit, the driver and the step motor.
该控制系统包括上位机控制界面、单片机控制电路、驱动器以及步进电机。
The control system of security interlocking protection consisting of PLC and upper computer is introduced.
介绍了由PLC及上位机组成的安全联锁保护控制系统。
Data analyzing, processing, curve drawing and tendency forecasting are finished by the upper computer finally.
数据的分析、处理、绘制曲线以及趋势的预测最终由上位机完成。
The upper computer communicating with the scale model ship through a pair of RF transmitters, is placed on the shore.
上位机采用笔记本电脑,放置于岸边,用一对射频收发器与船舶缩尺模型进行无线通信。
The result showed that CUDA could speed up calculation and be well used in real-time target tracking on upper computer.
结果表明,CUDA的应用使上位机目标跟踪的实时性得到了很大提升,可以将其应用于其它众多领域。
The system comprises of four parts which are signal transmitter, receiver, signal channel and upper computer as a console.
平台主要包括中频信号发生器,模拟信道、接收机以及上位机控制台。
Serial communication program can automatically transmit the testing data and information to the upper computer after the data testing.
串口通信程序在测试完毕后自动向上级计算机传输测试数据和信息交换。
Software design can be divided into the upper computer part and the lower computer part. The whole program is developed by C language.
本装置的软件设计也包括上位机和下位机两部分,应用C语言完成两部分的程序开发。
The OPC is used for exchanging data between the upper computer with sever, and the automatization of the information systems is realized.
上位机使用OPC技术与工厂信息管理系统进行数据交换,实现汽车生产线信息管理的自动化。
Objective: To design a upper computer software which can achieve data acquisition, display, motion control for sickbed-control test system.
目的:为病床控制系统测试平台设计一种能够进行数据采集与运动控制的上位机软件。
The communication with the upper computer was realized through PCI bus, DSP and CPLD was used to achieve motion control of manipulator's joints.
控制器通过PCI总线与上位机通信,采用DSP和CPLD完成了运动控制功能,实现了机械手关节运动的伺服控制。
The main function of the MODEM communication module is to transmit the acquired data to the upper computer by the serial communication of RS-232C.
MODEM通信模块的主要功能是将采集到的数据通过RS - 232c串行通信传送给上位机。
By reading the communication port, the management software in the upper computer records the data real-timely and handles the corresponding situation.
上位机的管理软件通过对串口的读取,将用户端的实时信息进行录入,并针对相应情况做出处理。
The main description is on designs such as overall scheme, control program, communication interface between PLC and upper computer, data read program.
本文介绍了立体车库的PLC控制系统总体设计、控制程序设计、PLC与上位机接口的通信方案设计、计算机从PLC读取数据的程序设计等。
Finally, the software of the system was programmed, including the non-real-time software of upper computer and the real time software of lower computer.
最后编写了整个系统的软件部分,包括上位机非实时性软件和下位机实时性软件部分。
Based on the analysis and study on different interface modes of the upper computer, a kind of intelligence interface technology method has been put forward.
通过分析和研究上位机各种接口方式,提出了一种智能化接口技术的实现方法。
The thesis focus on controlling full color LED screen synchronously, controlling LED screen to display video in a fixed position of upper computer synchronously.
本文研究的是对全彩色同步led屏的控制,控制LED屏同步显示在上位机显示系统中某固定位置处的图像。
The acquisition system is composed of 8051 Single Chip which controls transmitting and accepting Ultrasound, and to use RS232 as a message channel to upper computer.
该采集系统采用8051单片机控制超声波的发射与接收,采用RS232与上位微机通讯。
The establishment of upper computer software provides a valuable experience for later intelligently realizing trick, and also make the function of PMAC be used further.
另一方面对受控五杆机构的上位机控制程序建立,为智能化实现给定轨迹奠定了基础,也使得PMAC功能得到了进一步的发挥和运用。
This paper proposed a novel control method for implementing the tread winding of OTR tire, which features the central role of the upper computer in manufacturing process.
本文提出了一种以上位机为核心,充分利用上位机强大的运算能力和编程的灵活性来实现工程轮胎胎面仿形缠绕控制的方法。
Experimental raw data can be derived from the simulation data of the upper computer software, the recorded wave data and many kinds of data generated by protection tester.
实验原始数据可来源于上位机模拟的数据、现场录波数据和由保护测试仪产生的多种模拟数据。
The system software included upper computer system software and lower computer system software. Method of structural module was adopted in the design of the system software.
系统软件包括上位机系统软件和下位机系统软件,软件的设计采用结构化模块设计方法。
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