远程半实物实验室及其在工程教育中的应用

Derk Gonschor, Marco Jung, J. G. D. Costa, R. Brandl
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引用次数: 2

摘要

为了应对整合可再生能源和智能电网解决方案以推进能源转型所带来的挑战,需要新的、先进的教育和培训,让年轻工程师在年轻时就掌握创新解决方案的工具。本文提出了一个设计用于远程访问的硬件在环实验室,以增加以实践为导向的教学优势,并为电子学习和混合学习等新的教育趋势开辟了道路。在流感大流行期间,它被应用于在线工程课程,但其好处可能包括之后学生学习的增加。详细介绍了基于三个主要步骤的方法。首先,进行在线课堂阶段。在此基础上,开发了离线仿真模型。最后,将开发的仿真模型集成到实时远程硬件在环仿真过程中,作为工程课程的实验部分。介绍了远程硬件在环实验室的硬件和软件组件,并描述了两个实时实验室练习示例,以提供对该方法的深入了解。
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Remote Hardware-in-the-Loop Laboratory and its Application in Engineering Education
Addressing the challenges associated with integrating renewable energy resources and smart grid solutions to advance the energy transition requires new and progressive education and training to give young engineers the tools for innovative solutions at an early age. This paper presents a Hardware-in-the-Loop laboratory designed for remote access, to increase the advantages for practice-oriented teaching and to open the floor for new educational trends, as e-learning and blended learning. It was applied to online engineering courses during the pandemic period, but the benefits may include an increase in student learning afterward as well. The method based on three main steps is presented in detail. First of all, an online class stage is performed. Following this, models for offline simulations are developed. Finally, the developed simulation models are integrated into a real-time remote Hardware-in-the-Loop emulation process as the experimental part of the engineering course. The hardware and software components of the remote Hardware-in-the-Loop lab are presented, and two examples of real-time lab exercises are described to provide insight into the method.
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