A State-of-the-Art Review of Augmented Reality in Engineering Analysis and Simulation

Li, Wenkai; Nee, A. Y. C.; Ong, S. K.

doi:10.3390/mti1030017

Cited by 99 publications

(75 citation statements)

References 82 publications

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“…[18] proposes the use of a 3D holographic system using a real size virtual replica, and by using mobile devices integrated into the factory and in the classroom, while Centea [19] implements a dual education system collaboration between industry and university to train students and employees involving TF. Another tendency is the use of mixed reality in learning about factories as suggested in [20], displaying information about on-site working environments [21]. The problem for the MR use is when no equipment exists or the training needs to be implemented in safety situations without risking trainers and equipment [22], such as the presented case.…”

Section: Related Workmentioning

confidence: 99%

“…The evaluations consider the job skills that the student will need in the industry; from the selection of equipment, design of photovoltaic arrangements, calculations of conductor sizes and protection devices, the use of personal protective equipment, and the amount of power generation taking into account the value of 5 hrs of solar radiation typically used in the literature. 20 Determine the capacity of the DC and AC switches 7…”

Section: Academic Contextmentioning

confidence: 99%

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Incorporating Virtual Reality into the Teaching and Training of Grid-Tie Photovoltaic Power Plants Design

González-López

Arredondo²,

Laureano

et al. 2019

Applied Sciences

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The current difficulty in obtaining financial resources to acquire equipment for training personnel and the requirement of well-trained engineers in the industry looking toward sustainability, creates an opportunity to innovate in teaching tools, such as the proposed in this article, where a virtual world is projected, integrating the planning and design of a photovoltaic power plant (PV). The user can interact while immersed in the virtual scene as if the PV system were already installed, illustrating technical characteristics of selected equipment and its installation details, while the user is interacting with didactic activities focused on visual, auditory, and kinesthetic learning. This paper summarizes an initiative within the teaching-learning context, which aims to show the advantages of using modern tools, such as virtual reality, to achieve teaching goals in a renewable energy course.

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Section: Related Workmentioning

confidence: 99%

Section: Academic Contextmentioning

confidence: 99%

Incorporating Virtual Reality into the Teaching and Training of Grid-Tie Photovoltaic Power Plants Design

González-López

Arredondo²,

Laureano

et al. 2019

Applied Sciences

View full text Add to dashboard Cite

show abstract

“…In the field of Teaching and learning, markers in the form of images on the pages of books, tables of chemical elements, or attached to learning media that cause the size of the digital object displayed to adjust the place [2][3][4][5][6][7][8][9][10][11]. In the field of Product and Marketing, customers usually immediately try to use the product and want to get more interactive information [12][13][14][15][16][17][18][19][20][21]. The illustration of marker weaknesses from the previous research is shown in Figure 1.…”

Section: Introductionmentioning

confidence: 99%

Vertex markers: Modification of grid methods as markers to reproduce large size augmented reality objects to afford hands

Kusuma¹,

Supianto²,

Tolle³

2020

IJECE

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Marker Based Augmented Reality means technology that can present digital content in the real world based on markers. The weakness of the research on developing Marker Based Augmented Reality applications found is using small digital content. Weakness is caused by the area of view of Augmented Reality cameras is limited by the placement of markers that are affordable to the user's hand. The fundamental contribution and advantage of this study to modifying the Grid method become a vertex marker for reproducing a large digital object accurately and can be reached by hand when displayed. Finally, the accuracy testing revealed continous of pieces of digital objects that showed by vertex markers are accurate.

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“…Although there have been considerable interests in interpreting building design in virtual environments, investigations on visualizing the performance simulation together in AR/MR are still insufficient. Interrogatively visualizing these data in the AR/MR can decrease misinterpretations and help designers make correct decisions (Li et al 2017). This topic was firstly coined by Belcher & Johnson (2008a) who superimposed the virtual model with light simulation data obtained from software Radiance and Ecotect.…”

Section: Introductionmentioning

confidence: 99%

Using augmented reality and mixed reality to interpret design choices of high-performance buildings

Zhao¹,

Zhang²,

DeAngelis³

2019

Proceedings of the 2019 European Conference on Computing in Construction

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Evaluating building performances, such as the indoor daylight, is usually based on numerical simulation and 2D image illustration. It does not take advantage of emerging Augmented Reality (AR) or Mixed Reality (MR) techniques to intuitively aid the building design. The current study probes into the topic bringing building geometry information together with simulation results into AR/MR environments. After introducing some precedent work in the literature, authors recap the typical workflow and report its application on two case studies. The first case study displays the structural simulation of a high-rise building in AR, while the second case study shows the daylight simulation of a two-story house within MR. At last, reflections are conducted and future possibilities are identified. Authors deem that, in the aim of this study, only retrofitting projects are suitable for MR. The present work can help practitioners better understand this new approach, offering the added value of using AR/MR for building design.

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A State-of-the-Art Review of Augmented Reality in Engineering Analysis and Simulation

Cited by 99 publications

References 82 publications

Incorporating Virtual Reality into the Teaching and Training of Grid-Tie Photovoltaic Power Plants Design

Incorporating Virtual Reality into the Teaching and Training of Grid-Tie Photovoltaic Power Plants Design

Vertex markers: Modification of grid methods as markers to reproduce large size augmented reality objects to afford hands

Using augmented reality and mixed reality to interpret design choices of high-performance buildings

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