Augmented Reality in Medicine

Ha, Ho-Gun; Hong, Jin

doi:10.7599/hmr.2016.36.4.242

Cited by 51 publications

(21 citation statements)

References 14 publications

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“…One of the common visualization methods used in surgery and biomedical engineering is image overlay. As mentioned by many researchers [59,61,62,77], data is rendered with a viewport-aligned slicing image. A 2D textured representation is generated based on a user's viewport and superimposed on the real scene.…”

Section: Results Visualizationmentioning

confidence: 99%

“…The discussion aims to provide a detailed description of state-of-the-art AR technologies in engineering analysis and simulation. Salah et al [31] Intuitive analysis environment Tawara and Ono [60] Kaladji et al [61] Sutherland [32] Training and education ARMed, [62] Civil & urban engineering…”

Section: Current Ar Applications In Engineering Analysis and Simulationmentioning

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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Section: Results Visualizationmentioning

confidence: 99%

Section: Current Ar Applications In Engineering Analysis and Simulationmentioning

confidence: 99%

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

Nee

Ong

2017

MTI

105

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“…AR has begun to find its role in medicine in the hospital, but has not been expanded into the setting of Disaster Medicine. [11] The expansion of telemedicine into MCI has been previously proposed but has yet to be piloted and rigorously tested. [12,13]…”

Section: Introductionmentioning

confidence: 99%

Usability and Reliability of Smart Glasses for Secondary Triage During Mass Casualty Incidents

Broach¹,

Hart²,

Griswold³

et al. 2018

Proceedings of the Annual Hawaii International Conference on System Sciences

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“…Many studies have explored the utilization of technology as assistive therapeutic tools for autism, namely computer technology [1], robotics systems [2], and Virtual Reality [3]. In recent years, Augmented Reality (AR) technology is being used successfully in the gaming industry [4], medicine [5], art [6], assistive technology [7], [8], education [9], [10] and other areas.…”

Section: Introductionmentioning

confidence: 99%

An Augmented Reality-Based Framework for Assisting Individuals with Autism and Cognitive Disorders

Geroimenko¹,

El-Seoud²,

Halabi³

2018

IJIET

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People with autism require systematic assistance while dealing with the surrounding environment and its objects. The project aim is to develop a framework that could be of substantial help to people with autism and cognitive disorders. The framework is based on common mobile devices and freely available Augmented Reality (AR) applications. The Augmented Reality used in our approach is marker-based AR that employs a camera and a visual marker to trigger and present media content on the mobile device's screen. The developed framework allows parents and teachers to easily create educational augmented environments for children with autism and cognitive disorders by populating a real-world space with visual markers of favorite cartoonish helpers that can evoke helpful AR content and embed it in the real-world environment. The paper analyzes and discusses the use of the proposed framework from conceptual and technological points of view. Index Terms-Autism and cognitive disorders, educational augmented environments, new learning models and applications.

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Augmented Reality in Medicine

Cited by 51 publications

References 14 publications

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

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

Usability and Reliability of Smart Glasses for Secondary Triage During Mass Casualty Incidents

An Augmented Reality-Based Framework for Assisting Individuals with Autism and Cognitive Disorders

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