Analyses Using VR/AR Visualization

Weidlich, Dieter; Scherer, S.; Wabner, Markus

doi:10.1109/mcg.2008.89

Cited by 19 publications

(10 citation statements)

References 2 publications

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“…Position papers typically describe the potentials of AR usage in different fields, encompassing finite elements analysis studies (Weidlich et al, 2008), virtual manufacturing (Novak-Marcincin and Novakova-Marcincinova, 2013), mobile learning (Chen, 2014) and lean manufacturing, this latter in terms of waste reduction and improvement in process efficiency (Huenerfauth, 2014). Anastassova and Burkhardt (2009) discussed the benefits of AR as a tool to solve some typical training problems for automotive service technicians.…”

Section: Conceptual Papersmentioning

confidence: 99%

Augmented reality technology in the manufacturing industry: A review of the last decade

2019

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The aim of this article is to analyze and review the scientific literature relating to the application of Augmented Reality (AR) technology in industry. AR technology is becoming increasingly diffuse, due to the ease of application development and the widespread use of hardware devices (mainly smartphones and tablets) able to support its adoption. Today, a growing number of applications based on AR solutions are being developed for industrial purposes. Although these applications are often little more than experimental prototypes, AR technology is proving highly flexible and is showing great potential in numerous areas (e.g., maintenance, training/learning, assembly or product design) and in industrial sectors (e.g., the automotive, aircraft or manufacturing industries). It is expected that AR systems will become even more widespread in the near future.The purpose of this review is to classify the literature on AR published from 2006 to early 2017, to identify the main areas and sectors where AR is currently deployed, describe the technological solutions adopted, as well as the main benefits achievable with this kind of technology.ARTICLE HISTORY

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Section: Conceptual Papersmentioning

confidence: 99%

Augmented reality technology in the manufacturing industry: A review of the last decade

2019

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“…Clothier et al [63] Assist on-site operation Underkoffler et al [64] Malkawi et al [65,66] Intuitive analysis environment Carmo et al [33,34] Heuveline et al [35,36] Golparvar-Fard et al [67,68] Graf et al [69] Intuitive design environment Broll et al [37] Fukuda et al [38,39] Mechanical engineering & Manufacturing Weidlich et al [70] Intuitive analysis environment NUS AR group, [27,41,42] Paulus, et al [43] Uva et al [44,45,47,48] Issartel et al [71] Bernasconi et al [40] Valentini et al [49,50] Naets et al [72] Moreland et al [73] Regenbrecht et al [74] Intuitive design environment Niebling et al [46] Weidenhausen et al [75] Electromagnetism Buchau et al [76] Training and education Ibáñez et al [51] Silva et al [77] Intuitive analysis environment Mannuß et al [52] Matsutomo et al [53,54] Table 6 summarizes the features and limitations of most of the AR-based engineering analysis and simulation systems. Selected studies use different visualization methods, such as image overlay, OpenGL programming, and special software kit, to visualize volumetric data and numerical simulation results.…”

Section: Current Ar Applications In Engineering Analysis and Simulationmentioning

confidence: 99%

“…Table 8 summarizes the simulation result updating methods in selected studies. Some of the reported studies, such as [32,43,46,70,74,75], used pre-defined simulation results. Pre-defined result based systems limit the function and are not flexible and scalable.…”

Section: Efficient Visualization Tools Are Implemented For Near Real-mentioning

confidence: 99%

“…The advantage of marker-based tracking is computationally inexpensive and it can deliver relatively stable results with a low-resolution camera. In the research reported by Weidlich et al [70], the FEA result is superimposed on a black-and-white fiducial marker that is pasted on the machine. Huang et al [41,42] implemented a tracking system based on multiple markers.…”

Section: Trackingmentioning

confidence: 99%

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

Nee

Ong

2017

MTI

105

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Augmented reality (AR) has recently become a worldwide research topic. AR technology renders intuitive computer-generated contents on users' physical surroundings. To improve process efficiency and productivity, researchers and developers have paid increasing attention to AR applications in engineering analysis and simulation. The integration of AR with numerical simulation, such as the finite element method, provides a cognitive and scientific way for users to analyze practical problems. By incorporating scientific visualization technologies, an AR-based system superimposes engineering analysis and simulation results directly on real-world objects. Engineering analysis and simulation involving diverse types of data are normally processed using specific computer software. Correct and effective visualization of these data using an AR platform can reduce the misinterpretation in spatial and logical aspects. Moreover, tracking performance of the AR platforms in engineering analysis and simulation is crucial as it influences the overall user experience. The operating environment of the AR platforms requires robust tracking performance to deliver stable and accurate information to the users. In addition, over the past several decades, AR has undergone a transition from desktop to mobile computing. The portability and propagation of mobile platforms has provided engineers with convenient access to relevant information in situ. However, on-site working environment imposes constraints on the development of mobile AR-based systems. This paper aims to provide a systematic overview of AR in engineering analysis and simulation. The visualization, tracking techniques as well as the implementation on mobile platforms are discussed. Each technique is analyzed with respect to its pros and cons, as well its suitability to particular types of applications.

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“…Some Researcher used smart devices to augment-visualize simulations of buildings on the outside and made it possible for many users to participate and cooperate [9]. Some Researcher used smart devices to visualize simulations of machines [13]. The method proposed by Weidlich is made up of serverclient method; server reads data and calculates simulation results whilst client renders and visualizes simulation results.…”

Section: Visualization Of Smart Device-based Augmented Reality Simulamentioning

confidence: 99%

Multi-Device Based AR (Augmented Reality) Visualization & Interaction of Modeling & Simulation Analysis Results

Seo¹,

Kim²,

Kim³

2017

IJCA

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Analyses Using VR/AR Visualization

Cited by 19 publications

References 2 publications

Augmented reality technology in the manufacturing industry: A review of the last decade

Augmented reality technology in the manufacturing industry: A review of the last decade

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

Multi-Device Based AR (Augmented Reality) Visualization & Interaction of Modeling & Simulation Analysis Results

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