Human machine interface for Virtual Prototyping of Industrial Instruments

Rhea Valentina, Markus Ruppert, P. Nenninger, Francisco Mendoza
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引用次数: 2

Abstract

Instrumentation is an important part in the industrial automation domain as it is fundamentally required for process control loops. Virtual Prototyping (VP) as prime technology is considered as a novel approach to aid in the development Industrial Instruments. However, using state-of-the-art VP technologies requires a high degree of expertise, thereby limiting its usability among multi-disciplinary teams. This paper proposes a new approach for easing the use of VP technologies among different domain experts. It provides common grounds for domain experts to productively interact and share knowledge already in early stages of development. This is done by extending an existing virtual prototype of an Industrial Instrument with an integrated interfacing methodology. In this paper, the design, implementation, and integration of a custom HMI for an industrial temperature transmitter instrument are presented. This includes the verification and validation of the VP-enhanced development process. The presented evaluation shows the encapsulation of the complexity of Virtual Platform-based development process to enable agile development of Industrial Instruments.
工业仪器虚拟样机的人机界面
仪表是工业自动化领域的重要组成部分,因为它是过程控制回路的基本要求。虚拟样机(VP)作为一种主要技术被认为是辅助工业仪器开发的一种新方法。然而,使用最先进的VP技术需要高度的专业知识,从而限制了它在多学科团队中的可用性。本文提出了一种新的方法来简化不同领域专家之间VP技术的使用。它为领域专家提供了共同的基础,使他们能够有效地进行交互,并共享已经处于早期开发阶段的知识。这是通过使用集成接口方法扩展工业仪器的现有虚拟原型来完成的。本文介绍了一种用于工业温度变送器仪表的定制人机界面的设计、实现和集成。这包括对vp增强开发过程的验证和确认。所提出的评估显示了基于虚拟平台的开发过程的复杂性的封装,以实现工业仪器的敏捷开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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