During the transition from DCS to FCS, the problem of the interface of conventional instrument and FCS appears.
而在DCS向FCS过渡的过程中,急需解决传统仪表与现场总线的接口问题。
The thermal power plant DCS human-machine interface evaluation is an important issue which we must focus on.
因而火力发电厂dCS系统人机界面的评价成为我们必须面对的重要课题。
Two methods of communication between DCS and IPC designed method of real time control dynamic database and the function of man-machine interface in integrated software platform have been analyzed.
分析了二种DCS与IPC的通讯方式,实时控制动态数据库的设计方法,以及集成软件平台人机交互界面的功能。
It introduces the design methods of multi-variable predictive control CDU and soft instrument, DCS communication interface and project realization of point.
并重点介绍了常减压蒸馏装置多变量预估控制器、软仪表的设计方法,DCS接口通讯及工程实施要点。
So that we need to develop the appropriate interface for DCS data exchange, in order to make the upper management systems and the underlying control system integrated tightly.
因此我们需要开发相应的接口用于DCS数据的交换,使上层管理系统与底层控制系统之间紧密集成。
The problems that solving Multi-platforms' integration and data access of DCS control system which needs to implement a corresponding data interface and server for each different data platform.
在解决DCS系统中多平台的数据访问和集成问题中,必须要为每个不同的平台开发一个相应的数据访问接口和服务器。
This paper introduces the instruction of DCS system, analyzes the reason of the human machine interface breakdown, and presents the ways that resolved the question and some suggestions.
文章在介绍DCS系统体系结构的基础上,分析了DCS人机界面死机的基本原因,并提出了解决DCS人机界面死机的方法和建议。
The workload of HMI(Human-Machine Interface) development in the traditional virtual DCS(Distributed Control System) is heavy, while its fidelity is low and the modification is difficult.
传统虚拟分布式控制系统(DCS)中的人机界面开发工作量大、逼真度不高,且不易修改。
The workload of HMI(Human-Machine Interface) development in the traditional virtual DCS(Distributed Control System) is heavy, while its fidelity is low and the modification is difficult.
传统虚拟分布式控制系统(DCS)中的人机界面开发工作量大、逼真度不高,且不易修改。
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