• Title/Summary/Keyword: mobile AR system

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Development of a Field-Experiential Learning Framework using Location Based Mobile-learning AR System (이동성 위치기반 증강현실(LBMS-AR)시스템 적용 현장체험 학습활동 프레임워크 개발)

  • Cho, Jae Wan;Kim, Eun Gyung
    • Journal of Information Technology Services
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    • v.18 no.5
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    • pp.85-97
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    • 2019
  • In this study, we developed the Field-Experiential Learning Framework Using the Location Based Mobil-learning System (LBMS) and it is mobile Augmented Reality (AR) for smart learning system which is advanced e-learning. AR is technology that seamlessly overlays computer graphics on the real world. LBMS-AR has become widely available because of mobile AR. Mobile AR is possible to get information from real world anytime, anywhere. Nowadays, there are various areas using AR such as entertainment, marketing, location-based AR. We analysed the result of survey and implemented the functions. Also, for survey about application's effectiveness, we have focus group interview (FGI). Then we demonstrated and explained the application to them. The result of survey about application's effectiveness shows that application have higher utilization in education area. One of the most promising areas is education. AR in education shows lifelike images to users for realism. It's a good way for improving concentration and attention. We utilize only a beacone for image-based AR without other sensor.

Building a Mobile AR System Based on Visual SLAM (Visual SLAM 기반의 모바일 증강현실 시스템 구축)

  • Song, Ju Eun;Kook, Joongjin
    • Journal of the Semiconductor & Display Technology
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    • v.20 no.4
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    • pp.96-101
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    • 2021
  • The SLAM market is growing rapidly with advances in Machine Learning, Drones, Augmented Reality technologies. However, due to the absence of an open source-based SLAM library for developing AR content, most SLAM researchers are required to conduct their own research and development to customize SLAM. In this paper, we propose an opensource-based Mobile Markerless AR System by building our own pipeline based on Visual SLAM. To implement the Mobile AR System of this paper, it uses ORB-SLAM3 and Unity Engine and We experimented with running our system in a real environment and confirming it in the Unity Engine's Mobile Viewer. Through this experimentation, we can verify that the Unity Engine and the SLAM System are tightly integrated and communicate smoothly. Also, we expect to accelerate the growth of SLAM technology through this research.

A Study on AR-based mobile applications for preschoolers (미취학 아동을 대상으로 한 AR 기반 모바일 애플리케이션 연구)

  • Sin, Yeong-Hyeop;Kim, Yeo-min;Seo, Hye-Jin;Kim, Si-Hyun
    • Proceedings of the Korea Information Processing Society Conference
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    • 2020.11a
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    • pp.490-493
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    • 2020
  • Using AR technology, which has recently emerged as an innovative technology, AR mobile application for infants was planned. In the form of combining play and education, children's interest is aroused and access to education to various fields is increased. Unity 3D Engine and Vuforia SDK were mainly used to design Android-based mobile applications.

The Fourth Industrial Revolution and Multimedia Converging Technology: Pervasive AR Platform Construction using a Mobile Robot based Projection Technology (4 산업혁명과 멀티미디어 융합 기술 : 모바일 로봇 기반 이동형 프로젝션 기술을 이용한 Pervasive AR 플랫폼 구축)

  • Chae, Seungho;Yang, Yoonsik;Han, Tack-Don
    • Journal of Korea Multimedia Society
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    • v.20 no.2
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    • pp.298-312
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    • 2017
  • The fourth industrial revolution is expected to show technological innovation that develops among different fields beyond boundaries through the convergence and integration of fields. With the development and convergence of digital technology, users can receive information anywhere in the world. In this paper, we propose an adaptive interaction concept in a various environment by using a mobile robot based on projection augmented reality (AR). Most previous studies have aimed fixed projector or projection for a pre-designed environment. Thus, they provide only limited information. To overcome the abovementioned problem, we provide the adaptive information by implementing a projection AR system that can be mounted on the mobile robot. For that, the mobile robot based on the projection system was defined as Pervasive AR. Pervasive AR is configured with a pervasive display, a pervasive interface, and seamless interaction. The Pervasive AR technology enables the user to access information immediately by expanding the display area into real space, which implies an environment of intuitive and convenient interaction by expanding the user interface. This system can be applied to various areas, such as a home environment and a public space.

Mobile Augmented Reality for Smart-Learning System (모바일 증강현실을 활용한 스마트러닝 시스템)

  • Lee, Jae-Young;Kim, Young-Tae;Lee, Seok-Han;Kim, Tae-Eun;Choi, Jong-Soo
    • Convergence Security Journal
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    • v.11 no.6
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    • pp.17-23
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    • 2011
  • In this paper, we propose mobile Augmented Reality(AR) for smart learning system which is advanced e-learning. AR is technology that seamlessly overlays computer graphics on the real world. AR has become widely available because of mobile AR. Mobile AR is possible to get information from real world anytime, anywhere. Nowadays, there are various areas using AR such as entertainment, marketing, location-based AR. One of the most promising areas is education. AR in education shows lifelike images to users for realism. It's a good way for improving concentration and attention. We utilize only a camera for image-based AR without other sensor.

OpenVSLAM-based Cooperative Mobile AR System Architecture (OpenVSLAM 기반의 협력형 모바일 SLAM 시스템 설계)

  • Kook, Joongjin
    • Journal of the Semiconductor & Display Technology
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    • v.21 no.1
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    • pp.136-141
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    • 2022
  • In this paper, we designed, implemented, and verified the SLAM system that can be used on mobile devices. Mobile SLAM is composed of a stand-alone type that directly performs SLAM operation on a mobile device, and a mapping server type that additionally configures a mapping server based on FastAPI to perform SLAM operation on the server and transmits data for map visualization to a mobile device. The mobile SLAM system proposed in this paper is to mix the two types in order to make SLAM operation and map generation more efficient. The stand-alone type SLAM system was configured as an Android app by porting the OpenVSLAM library to the Unity engine, and the map generation and performance were evaluated on desktop PCs and mobile devices. The mobile SLAM system in this paper is an open source project, so it is expected to help develop AR contents based on SLAM in a mobile environment.

Interface for in-situ Authoring of Augmented Reality Contents on a Mobile Device Environment (모바일 환경 증강현실 콘텐츠 현장 저작 인터페이스)

  • Lee, Jeong-Gyu;Lee, Jong-Weon
    • The Journal of the Korea Contents Association
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    • v.10 no.7
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    • pp.1-9
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    • 2010
  • This paper introduces a difference between mobile Augmented Reality (AR) authoring and desktop AR authoring, and suggests an interface system that can be applied to in-situ authoring of AR contents on a mobile device. The mobile devices have enabled users to use the AR system anytime and anywhere. It is now necessary to create user's individualized context information using mobile devices on the spot. To author AR contents easily with mobile devices, we need to maximize the convenience of mobile systems, which have yet limitation. To do so, this paper suggests new interaction approaches that manage augmented contents using visual cues and other simple attribute settings. In addition, to solve the problem that users have to hold their mobile devices to track markers while authoring contents, this system enables users to author contents in environment based on captured images. This interface system also can make cooperation environment for more than one users to author contents. This paper verifies the usefulness of the proposed interface by user tests. The results of an analyzing users' comments show that the proposed interface is suitable for in-situ mobile authoring system.

A Novle Method for Efficient Mobile AR Service in Edge Mesh Network

  • Choi, Seyun;Shim, Woosung;Hong, Sukjun;Kim, Hoijun;Lee, Seunghyun;Kwon, Soonchul
    • International Journal of Internet, Broadcasting and Communication
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    • v.14 no.3
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    • pp.22-29
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    • 2022
  • Recently, with the development of mobile computing power, mobile-based VR and AR services are being developed. Due to network performance and computing power constraints, VR and AR services using large-capacity 3D content have limitations. A study on an efficient 3D content load method for a mobile device is required. The conventional method downloads all 3D content used for AR services at the same time. In this paper, we propose an active 3D content load according to the user's track. The proposed method is a partitioned 3D object load. Edge servers were installed for each area and connected through the MESH network. Partitioned load the required 3D object in the area referring to the user's location. The location is identified through the edge server information of the connected AP. The performance of the proposed method and the conventional method was compared. As a result of the comparison, the proposed method showed a stable Mobile AR Service. The results of this study, it is expected to contribute to the activation of edge server-based AR mobile services.

Space Management on Campus of a Mobile BIM-based Augmented Reality System

  • Ji, Seung-Yeul;Kim, Mi-Kyoung;Jun, Han-Jong
    • Architectural research
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    • v.19 no.1
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    • pp.1-6
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    • 2017
  • Over the past decade, building information modeling (BIM) has gained a foothold in the construction sector. However, as digital data generated in the virtual space of a computer environment, BIM-based data have an inherent limitation in their application efficacy under field conditions. To overcome this, the present study employs augmented reality (AR) to reduce the discrepancy between the digital data generated in virtual spaces and real-world conditions. We assessed the potential applicability of an AR-based interface by analyzing existing examples of Apple, Google, and Facebook, which reflect the recent developments of technologies focusing on user experience. We then proceeded with an AR study, restricting the scope of application to a mobile environment in which an efficient information transmission between a digital model and real life can take place. Object-oriented software engineering was employed to ensure an efficient implementation of a BIM-based AR system for campus space management (CSM) in a mobile environment. Finally, we conducted a module test to check the reliability of the CSM method by using an AR-based mobile system with a prototype of the model used in university campuses, and extracted and itemized the supplementary requirements for CSM by using BIM tools for running AR applications.

AR Anchor System Using Mobile Based 3D GNN Detection

  • Jeong, Chi-Seo;Kim, Jun-Sik;Kim, Dong-Kyun;Kwon, Soon-Chul;Jung, Kye-Dong
    • International Journal of Internet, Broadcasting and Communication
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    • v.13 no.1
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    • pp.54-60
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    • 2021
  • AR (Augmented Reality) is a technology that provides virtual content to the real world and provides additional information to objects in real-time through 3D content. In the past, a high-performance device was required to experience AR, but it was possible to implement AR more easily by improving mobile performance and mounting various sensors such as ToF (Time-of-Flight). Also, the importance of mobile augmented reality is growing with the commercialization of high-speed wireless Internet such as 5G. Thus, this paper proposes a system that can provide AR services via GNN (Graph Neural Network) using cameras and sensors on mobile devices. ToF of mobile devices is used to capture depth maps. A 3D point cloud was created using RGB images to distinguish specific colors of objects. Point clouds created with RGB images and Depth Map perform downsampling for smooth communication between mobile and server. Point clouds sent to the server are used for 3D object detection. The detection process determines the class of objects and uses one point in the 3D bounding box as an anchor point. AR contents are provided through app and web through class and anchor of the detected object.