Ontology-based mobile augmented reality in cultural heritage sites: information modeling and user study

Augmented reality (AR) has received much attention in the cultural heritage domain as an interactive medium for requesting and accessing information regarding heritage sites. In this study, we developed a mobile AR system based on Semantic Web technology to provide contextual information about cultural heritage sites. Most location-based AR systems are designed to present simple information about a point of interest (POI), but the proposed system offers information related to various aspects of cultural heritage, both tangible and intangible, linked to the POI. This is achieved via an information modeling framework where a cultural heritage ontology is used to aggregate heterogeneous data and semantically connect them with each other. We extracted cultural heritage data from five web databases and modeled contextual information for a target heritage site (Injeongjeon Hall and its vicinity in Changdeokgung Palace in South Korea) using the selected ontology. We then implemented a mobile AR application and conducted a user study to assess the learning and engagement impacts of the proposed system. We found that the application provides an agreeable user experience in terms of its affective, cognitive, and operative features. The results of our analysis showed that specific usage patterns were significant with regard to learning outcomes. Finally, we explored how the study’s key findings can provide practical design guidance for system designers to enhance mobile AR information systems for heritage sites, and to show system designers how to support particular usage patterns in order to accommodate specific user experiences better.

[1]  Attila Kiss,et al.  Alive Cemeteries with Augmented Reality and Semantic Web Technologies , 2014 .

[2]  Angelo Chianese,et al.  An associative engines based approach supporting collaborative analytics in the Internet of cultural things , 2017 .

[3]  Marti Louw,et al.  Stories in the Rock: A Design Case of an Explorable Image Viewer in a Natural History Museum , 2013 .

[4]  Willem Robert van Hage,et al.  Mobile Cultural Heritage Guide: Location-Aware Semantic Search , 2010, EKAW.

[5]  Salvatore Cuomo,et al.  IoT-based collaborative reputation system for associating visitors and artworks in a cultural scenario , 2017, Expert Syst. Appl..

[6]  N. Silberman ICOMOS Charter for the Interpretation and Presentation of Cultural Heritage Sites , 2008, International Journal of Cultural Property.

[7]  Radu Vasiu,et al.  LOD4AR: Exploring Linked Open Data with a Mobile Augmented Reality Web Application , 2014, International Semantic Web Conference.

[8]  Radu Vasiu,et al.  Integrating Linked Data in Mobile Augmented Reality Applications , 2014, ICIST.

[9]  Mark Billinghurst,et al.  AntarcticAR: An outdoor AR experience of a virtual tour to Antarctica , 2013, 2013 IEEE International Symposium on Mixed and Augmented Reality - Arts, Media, and Humanities (ISMAR-AMH).

[10]  Woontack Woo,et al.  An Ontology-Based Augmented Reality Application Exploring Contextual Data of Cultural Heritage Sites , 2016, 2016 12th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS).

[11]  Matthew James Kelley,et al.  Urban experience takes an informational turn: mobile internet usage and the unevenness of geosocial activity , 2013, GeoJournal.

[12]  Emanuele Della Valle,et al.  BOTTARI: An augmented reality mobile application to deliver personalized and location-based recommendations by continuous analysis of social media streams , 2012, J. Web Semant..

[13]  George Papagiannakis,et al.  Mixing virtual and real scenes in the site of ancient Pompeii , 2005, Comput. Animat. Virtual Worlds.

[14]  Lora Aroyo,et al.  Digital hermeneutics: Agora and the online understanding of cultural heritage , 2011, WebSci '11.

[15]  Woontack Woo,et al.  All-in-One Mobile Outdoor Augmented Reality Framework for Cultural Heritage Sites , 2016, 2016 12th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS).

[16]  A. Dunser,et al.  CityViewAR: A mobile outdoor AR application for city visualization , 2012, 2012 IEEE International Symposium on Mixed and Augmented Reality - Arts, Media, and Humanities (ISMAR-AMH).

[17]  C. Bizer,et al.  DBpedia Mobile : A Location-Aware Semantic Web Client , 2008 .

[18]  Lora Aroyo,et al.  From information delivery to interpretation support: evaluating cultural heritage access on the web , 2013, WebSci.

[19]  John N. Karigiannis,et al.  Archeoguide: system architecture of a mobile outdoor augmented reality system , 2002, Proceedings. International Symposium on Mixed and Augmented Reality.

[20]  Mauricio Barcellos Almeida A proposal to evaluate ontology content , 2009, Appl. Ontology.

[21]  Cristiano André da Costa,et al.  UbitourAR: A ubiquitous tourism model based on augmented reality , 2015 .

[22]  Antonella Fresa,et al.  A Data Infrastructure for Digital Cultural Heritage: Characteristics, Requirements and Priority Services , 2013, Int. J. Humanit. Arts Comput..

[23]  Woontack Woo,et al.  AR Reference Model for K-Culture Time Machine , 2016, HCI.

[24]  F. J. Delgado,et al.  AUGMENTED REALITY TO PRESERVE HIDDEN VESTIGES IN HISTORICAL CITIES. A CASE STUDY , 2015 .

[25]  Yehudit Judy Dori,et al.  MOSAICA: A web-2.0 based system for the preservation and presentation of cultural heritage , 2009, Comput. Educ..

[26]  Jaeyeon Ahn,et al.  Towards a semantic data infrastructure for heterogeneous Cultural Heritage data - challenges of Korean Cultural Heritage Data Model (KCHDM) , 2015, 2015 Digital Heritage.

[27]  Feng Feng,et al.  Tidy City: A location-based game for city exploration based on user-created content , 2011, Mensch & Computer.

[28]  Matthew Lombard,et al.  At the Heart of It All: The Concept of Presence , 2006 .