Challenges, Opportunities, and Future Trends of Emerging Techniques for Augmented Reality-Based Maintenance

Lamberti, Fabrizio; Manuri, Federico; Sanna, Andrea; Paravati, Gianluca; Pezzolla, Pietro; Montuschi, Paolo

doi:10.1109/tetc.2014.2368833

Cited by 84 publications

(38 citation statements)

References 37 publications

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“…His results show a reduction of both errors and time using AR-based instructions rather than paper-based instructions. Finally Lamberti [29], shows the capabilities of AR applying it on a notebook and printer maintenance operations even though he describes the automotive and aviation maintenance industry as the one needing for cost maintenance reductions. His research partners predicted a reduction of about 40% in travels and 30% in cost for maintenance operations.…”

Section: Field Of Applicationmentioning

confidence: 99%

A systematic review of augmented reality applications in maintenance

Palmarini

Erkoyuncu

Roy

et al. 2018

Robotics and Computer-Integrated Manufacturing

542

220

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Augmented Reality (AR) technologies for supporting maintenance operations have been an academic research topic for around 50 years now. In the last decade, major progresses have been made and the AR technology is getting closer to being implemented in industry. In this paper, the advantages and disadvantages of AR have been explored and quantified in terms of Key Performance Indicators (KPI) for industrial maintenance. Unfortunately, some technical issues still prevent AR from being suitable for industrial applications. This paper aims to show, through the results of a systematic literature review, the current state of the art of AR in maintenance and the most relevant technical limitations. The analysis included filtering from a large number of publications to 30 primary studies published between 1997 and 2017. The results indicate a high fragmentation among hardware, software and AR solutions which lead to a high complexity for selecting and developing AR systems. The results of the study show the areas where AR technology still lacks maturity. Future research directions are also proposed encompassing hardware, tracking and user-AR interaction in industrial maintenance is proposed.

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Section: Field Of Applicationmentioning

confidence: 99%

A systematic review of augmented reality applications in maintenance

Palmarini

Erkoyuncu

Roy

et al. 2018

Robotics and Computer-Integrated Manufacturing

542

220

View full text Add to dashboard Cite

show abstract

“…Other studies review AR systems that can be used for specific purposes, such as to enhance human computer interaction (HCI) (Igarashi and Inami, 2015;Rajendran et al, 2015) or human-robot collaboration (Green et al, 2008). Several papers analyze AR applications devoted to a particular industrial task; the most investigated tasks are assembly (Stork and Schub€ o, 2010;Leu et al 2013;Wang et al, 2016a) , maintenance (Oliveira et al, 2013;Lamberti et al 2015), design (Nee et al, 2012;Yin et al, 2015), safety/ergonomics (Hovanec et al, 2014) and food logistics (Vanderroost et al, 2017).…”

Section: Review 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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“…In [19], a collaborative framework solution is proposed to train technicians in assembly tasks of complex systems such as aircraft engines. Another example is provided by the EASE-R 3 project [20], which aimed to develop an integrated framework for an easy and cost-effective repair, renovation and reuse of machine tools within modern factories. As part of this project, an AR framework has been developed to provide: AR aids for maintenance procedures, remote assistance from an expert technician, and re-configurability of the maintenance procedures.…”

Section: State Of the Artmentioning

confidence: 99%

A State Validation System for Augmented Reality Based Maintenance Procedures

2019

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Maintenance has been one of the most important domains for augmented reality (AR) since its inception. AR applications enable technicians to receive visual and audio computer-generated aids while performing different activities, such as assembling, repairing, or maintenance procedures. These procedures are usually organized as a sequence of steps, each one involving an elementary action to be performed by the user. However, since it is not possible to automatically validate the users actions, they might incorrectly execute or miss some steps. Thus, a relevant open problem is to provide users with some sort of automated verification tool. This paper presents a system, used to support maintenance procedures through AR, which tries to address the validation problem. The novel technology consists of a computer vision algorithm able to evaluate, at each step of a maintenance procedure, if the user correctly completed the assigned task or not. The validation occurs by comparing an image of the final status of the machinery, after the user has performed the task, and a virtual 3D representation of the expected final status. Moreover, in order to avoid false positives, the system can identify both motions in the scene and changes in the camera’s zoom and/or position, thus enhancing the robustness of the validation phase. Tests demonstrate that the proposed system can effectively help the user in detecting and avoiding errors during the maintenance process.

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Challenges, Opportunities, and Future Trends of Emerging Techniques for Augmented Reality-Based Maintenance

Cited by 84 publications

References 37 publications

A systematic review of augmented reality applications in maintenance

A systematic review of augmented reality applications in maintenance

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

A State Validation System for Augmented Reality Based Maintenance Procedures

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