Mobile Location-Based Augmented Reality Framework

In mid-2016, the streets of cities around the world were populated by digital wayfarers taking part in the augmented reality (AR) game, Pokémon GO. The game popularized the digital overlay technique of AR, in which real-time pedestrian movement is integrated with mobile location-based functionality and network information. In the years that followed, playing Pokémon GO gradually became a mundane activity, fitting into the everyday routines of millions of people across the globe. It is at this juncture – when the gameplay became a habitual and unremarkable practice – that the research discussed here began. Through ethnographic fieldwork conducted in Badalona in Spain in 2018–2019, this article explores how sedimented and mundane media – those that are already embedded in daily life routines and typical scenarios of use – can become possible conduits for informal care, wellbeing and social change through playful inclusion and connection.

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Long-Term Engagement in Mobile Location-Based Augmented Reality Games

Augmented Reality Games I ◽

10.1007/978-3-030-15616-9_9 ◽

2019 ◽

pp. 129-147 ◽

Cited By ~ 2

Author(s):

Heinrich Söbke ◽

Jannicke Baalsrud Hauge ◽

Ioana A. Stefan

Keyword(s):

Augmented Reality ◽

Mobile Location

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APPROACH AND EVALUATION OF A MOBILE VIDEO-BASED AND LOCATION-BASED AUGMENTED REALITY PLATFORM FOR INFORMATION BROKERAGE

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprs-archives-xlii-4-w1-151-2016 ◽

2016 ◽

Vol XLII-4/W1 ◽

pp. 151-157 ◽

Cited By ~ 1

Author(s):

H. Dastageeri ◽

M. Storz ◽

A. Koukofikis ◽

S. Knauth ◽

V. Coors

Keyword(s):

User Interface ◽

Augmented Reality ◽

Implementation Process ◽

Mobile Video ◽

Mobile Location ◽

Image Tracking ◽

Points Of Interest ◽

Minimum Latency ◽

Small Display ◽

Open Geospatial Consortium

Providing mobile location-based information for pedestrians faces many challenges. On one hand the accuracy of localisation indoors and outdoors is restricted due to technical limitations of GPS and Beacons. Then again only a small display is available to display information as well as to develop a user interface. Plus, the software solution has to consider the hardware characteristics of mobile devices during the implementation process for aiming a performance with minimum latency. This paper describes our approach by including a combination of image tracking and GPS or Beacons to ensure orientation and precision of localisation. To communicate the information on Points of Interest (POIs), we decided to choose Augmented Reality (AR). For this concept of operations, we used besides the display also the acceleration and positions sensors as a user interface. <br><br> This paper especially goes into detail on the optimization of the image tracking algorithms, the development of the video-based AR player for the Android platform and the evaluation of videos as an AR element in consideration of providing a good user experience. For setting up content for the POIs or even generate a tour we used and extended the Open Geospatial Consortium (OGC) standard Augmented Reality Markup Language (ARML).

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