Initial framework design of a digital twin mixed-reality-application on human-robot bi-directional collaboration for forming double curvature plate

Kevin Benton Jr; Nicholas Dewberry; Chandra Jaiswal; Shuva Chowdhury; Issa AlHmoud; Derick Suarez; Kornel Ehmann; Jian Cao; Balakrishna Gokaraju

doi:10.1016/j.mfglet.2024.09.174

Initial framework design of a digital twin mixed-reality-application on human-robot bi-directional collaboration for forming double curvature plate

Kevin Benton Jr
, Nicholas Dewberry
, Chandra Jaiswal
, Shuva Chowdhury
, Issa AlHmoud
, Derick Suarez
, Kornel Ehmann
, Jian Cao
, Balakrishna Gokaraju

Computational Data Science and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This paper explores and identifies commonalities among recent Digital Twin (DT) technology definitions. additionally, it introduces a framework for a digital twin of Human-Robot Collaboration (HRC) focusing on English wheel manufacturing as its foundational context. To achieve this, two 3D simulators, namely Grasshopper and Rhino, were employed to faithfully replicate the English wheel process digitally. Subsequently, optimizing these simulators’ performance paved the way for a comprehensive visualization of the English wheel using the Microsoft HoloLens. This visualization integrates digital and physical interactions, resulting in a mixed reality environment. The ultimate goal of this research is to enable a bi-directional collaboration within the digital representation of the English wheel, bridging the gap between the virtual and physical realms.

Original language	English
Pages (from-to)	1476-1487
Number of pages	12
Journal	Manufacturing Letters
Volume	41
Issue number	Supplement
DOIs	https://doi.org/10.1016/j.mfglet.2024.09.174
State	Published - Oct 1 2024

Keywords

Digital Manufacturing
Digital Twin
Human-Robot Collaboration
Industry 4.0
Mixed Reality

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10.1016/j.mfglet.2024.09.174

Cite this

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title = "Initial framework design of a digital twin mixed-reality-application on human-robot bi-directional collaboration for forming double curvature plate",

abstract = "This paper explores and identifies commonalities among recent Digital Twin (DT) technology definitions. additionally, it introduces a framework for a digital twin of Human-Robot Collaboration (HRC) focusing on English wheel manufacturing as its foundational context. To achieve this, two 3D simulators, namely Grasshopper and Rhino, were employed to faithfully replicate the English wheel process digitally. Subsequently, optimizing these simulators{\textquoteright} performance paved the way for a comprehensive visualization of the English wheel using the Microsoft HoloLens. This visualization integrates digital and physical interactions, resulting in a mixed reality environment. The ultimate goal of this research is to enable a bi-directional collaboration within the digital representation of the English wheel, bridging the gap between the virtual and physical realms.",

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Benton Jr, K, Dewberry, N, Jaiswal, C, Chowdhury, S, AlHmoud, I, Suarez, D, Ehmann, K, Cao, J & Gokaraju, B 2024, 'Initial framework design of a digital twin mixed-reality-application on human-robot bi-directional collaboration for forming double curvature plate', Manufacturing Letters, vol. 41, no. Supplement, pp. 1476-1487. https://doi.org/10.1016/j.mfglet.2024.09.174

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AU - Benton Jr, Kevin

AU - Dewberry, Nicholas

AU - Jaiswal, Chandra

AU - Chowdhury, Shuva

AU - AlHmoud, Issa

AU - Suarez, Derick

AU - Ehmann, Kornel

AU - Cao, Jian

AU - Gokaraju, Balakrishna

PY - 2024/10/1

Y1 - 2024/10/1

N2 - This paper explores and identifies commonalities among recent Digital Twin (DT) technology definitions. additionally, it introduces a framework for a digital twin of Human-Robot Collaboration (HRC) focusing on English wheel manufacturing as its foundational context. To achieve this, two 3D simulators, namely Grasshopper and Rhino, were employed to faithfully replicate the English wheel process digitally. Subsequently, optimizing these simulators’ performance paved the way for a comprehensive visualization of the English wheel using the Microsoft HoloLens. This visualization integrates digital and physical interactions, resulting in a mixed reality environment. The ultimate goal of this research is to enable a bi-directional collaboration within the digital representation of the English wheel, bridging the gap between the virtual and physical realms.

AB - This paper explores and identifies commonalities among recent Digital Twin (DT) technology definitions. additionally, it introduces a framework for a digital twin of Human-Robot Collaboration (HRC) focusing on English wheel manufacturing as its foundational context. To achieve this, two 3D simulators, namely Grasshopper and Rhino, were employed to faithfully replicate the English wheel process digitally. Subsequently, optimizing these simulators’ performance paved the way for a comprehensive visualization of the English wheel using the Microsoft HoloLens. This visualization integrates digital and physical interactions, resulting in a mixed reality environment. The ultimate goal of this research is to enable a bi-directional collaboration within the digital representation of the English wheel, bridging the gap between the virtual and physical realms.

KW - Digital Manufacturing

KW - Digital Twin

KW - Human-Robot Collaboration

KW - Industry 4.0

KW - Mixed Reality

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Initial framework design of a digital twin mixed-reality-application on human-robot bi-directional collaboration for forming double curvature plate

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Keywords

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