A computer aided education system based on augmented reality by immersion to 3-D magnetic field

Matsutomo, Shinya; Manabe, Tomohisa; Čingoski, Vlatko; Noguchi, So

doi:10.1109/cefc.2016.7816102

Cited by 10 publications

(10 citation statements)

References 2 publications

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“…Therefore, we focused on smartphone platforms that are highly accessible and familiar to the student. Previous studies often focused on a specific domain or content 49 such as AR medical education, [7][8][9][10][11] science, and engineering education [12][13][14] because there has been a constant demand for overcoming the experimental risks on learners as well as raising budget efficiency in those fields. Unlike the previous studies, we aim to improve the learning activities in more general types of lectures with generalized AR functions.…”

Section: Related Workmentioning

confidence: 99%

“…We selected the smartphone platform which is widely used by students among various types of AR devices to minimize the financial burden and discomfort associated with an unfamiliar environment. Furthermore, unlike previous studies, which tended to limit the usage of AR in relation to specific domain or content, such as medical training [7][8][9][10][11] or science experiment, [12][13][14] we aimed to assist the learning activities of students in all lectures using a presentation slide. With the developed AR application, we then conducted a comparative experiment between three types of classes: AR-enhanced class (AC), smartphone-enhanced class (SC), and nontechnology-enhanced class (NC).…”

Section: Introductionmentioning

confidence: 99%

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Interactive learning in the classroom: A mobile augmented reality assistance application for learning

Joon

Kang

2021

Computer Animation & Virtual

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The rapid evolution of augmented reality (AR) technology has presented new opportunities in the domain of education. Acting as a bridge between the virtual and real worlds, AR technology overcomes the physical limitations of our classrooms at a low cost and provides an interactive learning experience. In this study, we present a smartphone AR application, named the AR-E-Helper, which assists the learning of students in higher education lectures. Our goal is to provide an AR-enhanced learning experience for students. To validate the effectiveness of the AR-E-Helper, we conducted an experiment that compares three classes: AR-enhanced, smartphone-enhanced, and nontechnology-enhanced classes. Through the experiment, we observed that our application was helpful in maintaining student's focus in class, promoting their interest, and increasing their satisfaction. Furthermore, we also found how to improve our application based on the observations that the application brought some downsides to the learning activities. We expect that this study will be helpful to design AR learning tools in the future.

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Section: Related Workmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Interactive learning in the classroom: A mobile augmented reality assistance application for learning

Joon

Kang

2021

Computer Animation & Virtual

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“…Intelligent connected vehicles (ICVs) are considered as a promising technology to solve a series of traffic-related issues such as traffic congestion, traffic accident and environmental pollution [1]. ICVs can facilitate many smart applications such as autonomous driving [2], augmented reality [3] and natural language processing [4], which can assist both the drivers and passengers in the vehicular environment [5]. The implementation of those applications needs powerful computing capability to process numerous computation-intensive and delay sensitive tasks generated by the vehicle sensors.…”

Section: Introductionmentioning

confidence: 99%

A Task Offloading Scheme in Vehicular Fog and Cloud Computing System

Liu

et al. 2020

IEEE Access

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Vehicular fog and cloud computing (VFCC) system, which provides huge computing power for processing numerous computation-intensive and delay sensitive tasks, is envisioned as an enabler for intelligent connected vehicles (ICVs). Although previous works have studied the optimal offloading scheme in the VFCC system, no existing work has considered the departure of vehicles that are processing tasks, i.e., the occupied vehicles. However, vehicles leaving the system with uncompleted tasks will affect the overall performance of the system. To solve the problem, in this paper, we study the optimal offloading scheme that considers the departure of occupied vehicles. We first formulate the task offloading problem as an semi-Markov decision process (SMDP). Then we design the value iteration algorithm for the SMDP to maximize the total long-term reward of the VFCC system. Finally, the numerical results demenstrate that the proposed offloading scheme can achieve higher system reward than the greedy scheme. INDEX TERMS Vehicular fog computing, cloud computing, task offloading, semi-Markov decision process.

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“…In recent years, teaching aids using augmented reality (AR) have been developed to enable the visualization of three-dimensional magnetic fields. Matsumoto et al used a head-mounted display connected to a PC in the development of a teaching aid for visualizing magnetic lines in three dimensions as an AR (3) . In addition, Cai et al developed a teaching aid using a motion-sensing device called Kinect (4) .…”

Section: Introductionmentioning

confidence: 99%

Augmented Reality Teaching Aid for Electromagnetic Induction for Middle School Students

Aoki

2019

The Journal of Information and Systems in Education

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Understanding electromagnetic induction, whose study is part of the middle school curriculum in Japan, is difficult for students. Thus, this study developed an augmented reality (AR) teaching aid for electromagnetic induction for middle school students. Magnetic lines are illustrated in three dimensions as an AR using conventional tablet PCs. Lessons were conducted with 127 middle school students, and the changes in their explanation of the principle of electromagnetic induction were investigated before and after using the teaching aid. The investigation revealed that only 3% of the students could explain scientifically the principle of electromagnetic induction before using the teaching aid; however, 63% of them were able to provide a scientific explanation after the AR teaching aid was applied.

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A computer aided education system based on augmented reality by immersion to 3-D magnetic field

Cited by 10 publications

References 2 publications

Interactive learning in the classroom: A mobile augmented reality assistance application for learning

Interactive learning in the classroom: A mobile augmented reality assistance application for learning

A Task Offloading Scheme in Vehicular Fog and Cloud Computing System

Augmented Reality Teaching Aid for Electromagnetic Induction for Middle School Students

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