2023
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Vorrink Niclas; Wicaksono, Hendro; Fatahi Valilai Omid Analyzing VR/AR Technology Capabilities for Enhancing the Effectiveness of Learning Processes with Focus on Gamification Inproceedings Forthcoming Proceeding Intelligent Systems Conference (IntelliSys) 2023, Forthcoming. BibTeX | Tags: augmented reality, virtual engineering, virtual reality @inproceedings{Vorrink2023,
title = {Analyzing VR/AR Technology Capabilities for Enhancing the Effectiveness of Learning Processes with Focus on Gamification},
author = {Vorrink, Niclas; Wicaksono, Hendro; Fatahi Valilai, Omid },
year = {2023},
date = {2023-09-07},
booktitle = {Proceeding Intelligent Systems Conference (IntelliSys) 2023},
keywords = {augmented reality, virtual engineering, virtual reality},
pubstate = {forthcoming},
tppubtype = {inproceedings}
}
|
2020
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Falah Muhammad Fajrul; Sukaridhoto, Sritrusta; Al Rasyid Muhammad Udin Harun; Wicaksono Hendro Design of Virtual Engineering and Digital Twin Platform as Implementation of Cyber-Physical Systems Journal Article Procedia Manufacturing, 52 , pp. 331-336, 2020. Abstract | Links | BibTeX | Tags: Cyber-physical systems, digital twins, virtual engineering @article{HendroWicaksono2020,
title = {Design of Virtual Engineering and Digital Twin Platform as Implementation of Cyber-Physical Systems},
author = {Falah, Muhammad Fajrul; Sukaridhoto, Sritrusta; Al Rasyid, Muhammad Udin Harun; Wicaksono, Hendro},
url = {https://doi.org/10.1016/j.promfg.2020.11.055},
doi = {10.1016/j.promfg.2020.11.055},
year = {2020},
date = {2020-12-31},
journal = {Procedia Manufacturing},
volume = {52},
pages = {331-336},
abstract = {Many industries in Indonesia face several challenges to adopting new technologies of industry 4.0, especially for Digital Twin (DT) and Virtual Engineering (VE), which are integrated with Cyber-Physical Systems (CPS). Lack of human resource and high costs are still significant challenges to developing DT and VE. This preliminary research aims to introduce the initial design of a platform to create Virtual Engineering applications that combine Digital Twin concepts and immersive experience using open-source tools and affordable hardware. Therefore, it can be easily used by Indonesian companies who plan to implement industry 4.0. This platform consists of three parts, 3D Object Management, VE Module, and VE Interface. The developed platform has successfully demonstrated how a physical device can be integrated with its virtual model using a Digital Twin. With this result, industry stakeholders can learn and try to develop digital twin platforms in their industry using this design.},
keywords = {Cyber-physical systems, digital twins, virtual engineering},
pubstate = {published},
tppubtype = {article}
}
Many industries in Indonesia face several challenges to adopting new technologies of industry 4.0, especially for Digital Twin (DT) and Virtual Engineering (VE), which are integrated with Cyber-Physical Systems (CPS). Lack of human resource and high costs are still significant challenges to developing DT and VE. This preliminary research aims to introduce the initial design of a platform to create Virtual Engineering applications that combine Digital Twin concepts and immersive experience using open-source tools and affordable hardware. Therefore, it can be easily used by Indonesian companies who plan to implement industry 4.0. This platform consists of three parts, 3D Object Management, VE Module, and VE Interface. The developed platform has successfully demonstrated how a physical device can be integrated with its virtual model using a Digital Twin. With this result, industry stakeholders can learn and try to develop digital twin platforms in their industry using this design. |
2019
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Rasyid Alfandino; Ulil Albaab, Mochammad Rifki; Falah Muhammad Fajrul; Panduman Yohanes Yohanie Fridelin; Yusuf Alviansyah Arman; Basuki Dwi Kurnia; Tjahjono Anang; Budiarti Rizqi Putri Nourma; Sukaridhoto Sritrusta; Yudianto Firman; Wicaksono Hendro Pothole visual detection using machine learning method integrated with internet of thing video streaming platform Conference 2019 International Electronics Symposium (IES)
, 2019. BibTeX | Tags: machine learning, virtual engineering @conference{Rasyid2019b,
title = {Pothole visual detection using machine learning method integrated with internet of thing video streaming platform},
author = {Rasyid, Alfandino; Ulil Albaab, Mochammad Rifki; Falah, Muhammad Fajrul; Panduman, Yohanes Yohanie Fridelin; Yusuf, Alviansyah Arman; Basuki, Dwi Kurnia; Tjahjono, Anang; Budiarti, Rizqi Putri Nourma; Sukaridhoto, Sritrusta; Yudianto, Firman; Wicaksono, Hendro},
year = {2019},
date = {2019-09-28},
booktitle = {2019 International Electronics Symposium (IES)
},
keywords = {machine learning, virtual engineering},
pubstate = {published},
tppubtype = {conference}
}
|
Schneider Georg Ferdinand; Wicaksono, Hendro; Ovtcharova Jivka Virtual engineering of cyber-physical automation systems: The case of control logic Journal Article Advanced Engineering Informatics, 39 , pp. 127-143, 2019, ISBN: 1474-0346. Abstract | Links | BibTeX | Tags: Cyber-physical systems, industry 4.0, Ontology, virtual engineering @article{Schneider2019,
title = {Virtual engineering of cyber-physical automation systems: The case of control logic},
author = {Schneider, Georg Ferdinand; Wicaksono, Hendro; Ovtcharova, Jivka },
url = {https://www.sciencedirect.com/science/article/pii/S1474034618300740},
doi = {https://doi.org/10.1016/j.aei.2018.11.009.},
isbn = {1474-0346},
year = {2019},
date = {2019-01-31},
journal = {Advanced Engineering Informatics},
volume = {39},
pages = {127-143},
abstract = {Mastering the fusion of information and communication technologies with physical systems to cyber-physical automation systems is of main concern to engineers in the industrial automation domain. The engineering of these systems is challenging as their distributed nature and the heterogeneity of stakeholders and tools involved in their engineering contradict the need for the simultaneous engineering of their cyber and physical parts over their life cycle. This paper presents a novel approach based on the virtual engineering method, which provides support for the simultaneous engineering of the cyber and physical parts of automation systems. The approach extends and integrates the life cycle centered view mandated by current conceptual architectures and the digital twin paradigm with an integrated, iterative engineering method. The benefits of the approach are highlighted in a case study related to the engineering of the control logic of a cyber physical automation system originating from the process engineering domain. We describe for the first time a modular domain ontology, which formally describes the cyber and physical part of the system. We present cyber services built on top of the ontology layer, which allow to automatically verify different control logic types and simultaneously verify cyber and physical parts of the system in an incremental manner.},
keywords = {Cyber-physical systems, industry 4.0, Ontology, virtual engineering},
pubstate = {published},
tppubtype = {article}
}
Mastering the fusion of information and communication technologies with physical systems to cyber-physical automation systems is of main concern to engineers in the industrial automation domain. The engineering of these systems is challenging as their distributed nature and the heterogeneity of stakeholders and tools involved in their engineering contradict the need for the simultaneous engineering of their cyber and physical parts over their life cycle. This paper presents a novel approach based on the virtual engineering method, which provides support for the simultaneous engineering of the cyber and physical parts of automation systems. The approach extends and integrates the life cycle centered view mandated by current conceptual architectures and the digital twin paradigm with an integrated, iterative engineering method. The benefits of the approach are highlighted in a case study related to the engineering of the control logic of a cyber physical automation system originating from the process engineering domain. We describe for the first time a modular domain ontology, which formally describes the cyber and physical part of the system. We present cyber services built on top of the ontology layer, which allow to automatically verify different control logic types and simultaneously verify cyber and physical parts of the system in an incremental manner. |