A Multi-person collaborative Simulation System For Circuit Experiment System Base on Virtual Reality

Jiang, Tao; Zhuang, Ziyou

doi:10.1109/icitbs53129.2021.00071

Cited by 2 publications

(1 citation statement)

References 3 publications

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“…Utilizing realistic circuits rather than simplified or abstract representations allows the younger students to grasp the different topics, with 9% of students showing improvement from a pre-experiment quiz. Jiang et al [4] developed a similar application with the ability to allow multiple users to experiment on the same circuit. Like in [3], the circuitry utilized simplified blocks to allow for easier configuration of simple analog circuits.…”

Section: Related Workmentioning

confidence: 99%

Leveraging VR for the Visualization of Non-Observable Electrical Circuits Principles in Engineering Education

Wolbach,

Hempel,

Sharif

2024

Preprint

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As technology advances, the field of electrical and computer engineering continuously demands the introduction of innovative new tools and methodologies to facilitate effective learning and comprehension of fundamental concepts. This research addresses an identified gap in technology-augmented education capabilities and researches the integration of Virtual Reality (VR) technology with real-time electronic circuit simulation to enable and enhance the visualization of non-observable concepts such as voltage distribution and current flow within these circuits. In this paper, we describe the development of our immersive educational platform, which makes understanding these abstract concepts intuitive and engaging. This research also involved the design and development of a VR-based circuit simulation environment. By leveraging VR’s immersive capabilities, our system enables users to physically interact with electronic components, observe the flow of electrical signals, and manipulate circuit parameters in real-time. Through this immersive experience, learners can gain a deeper understanding of fundamental electronic principles, transcending the limitations of traditional two-dimensional diagrams and equations. Furthermore, this research focuses on the implementation of advanced and novel visualization techniques within the VR environment for non-observable electrical and electromagnetic properties, providing users with a clearer and more intuitive understanding of electrical circuit concepts. Examples include color-coded pathways for current flow and dynamic voltage gradient visualization. Additionally, real-time data representation and graphical overlays are researched and integrated to offer users insights into the dynamic behavior of circuits, allowing for better analysis and troubleshooting.

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Section: Related Workmentioning

confidence: 99%

Leveraging VR for the Visualization of Non-Observable Electrical Circuits Principles in Engineering Education

Wolbach,

Hempel,

Sharif

2024

Preprint

View full text Add to dashboard Cite

show abstract

Leveraging Virtual Reality for the Visualization of Non-Observable Electrical Circuit Principles in Engineering Education

Wolbach,

Hempel,

Sharif

2024

Virtual Worlds

View full text Add to dashboard Cite

As technology advances, the field of electrical and computer engineering continuously demands the introduction of innovative new tools and methodologies to facilitate the effective learning and comprehension of fundamental concepts. This research addresses an identified gap in technology-augmented education capabilities and researches the integration of virtual reality (VR) technology with real-time electronic circuit simulation to enable and enhance the visualization of non-observable concepts such as voltage distribution and current flow within these circuits. In this paper, we describe the development of our immersive educational platform, which makes understanding these abstract concepts intuitive and engaging. This research also involves the design and development of a VR-based circuit simulation environment. By leveraging VR’s immersive capabilities, our system enables users to physically interact with electronic components, observe the flow of electrical signals, and manipulate circuit parameters in real-time. Through this immersive experience, learners can gain a deeper understanding of fundamental electronic principles, transcending the limitations of traditional two-dimensional diagrams and equations. Furthermore, this research focuses on the implementation of advanced and novel visualization techniques within the VR environment for non-observable electrical and electromagnetic properties, providing users with a clearer and more intuitive understanding of electrical circuit concepts. Examples include color-coded pathways for current flow and dynamic voltage gradient visualization. Additionally, real-time data representation and graphical overlays are researched and integrated to offer users insights into the dynamic behavior of circuits, allowing for better analysis and troubleshooting.

show abstract

A Multi-person collaborative Simulation System For Circuit Experiment System Base on Virtual Reality

Cited by 2 publications

References 3 publications

Leveraging VR for the Visualization of Non-Observable Electrical Circuits Principles in Engineering Education

Leveraging VR for the Visualization of Non-Observable Electrical Circuits Principles in Engineering Education

Leveraging Virtual Reality for the Visualization of Non-Observable Electrical Circuit Principles in Engineering Education

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