Analysis of the Productive, Structural, and Dynamic Development of Augmented Reality in Higher Education Research on the Web of Science

Augmented reality is an emerging technology that has gained great relevance thanks to the benefits of its use in learning spaces. The present study focuses on determining the performance and scientific production of augmented reality in higher education (ARHE). A bibliometric methodology for scientific mapping has been used, based on processes of estimation, quantification, analytical tracking, and evaluation of scientific research, taking as its reference the analysis protocols included in the Preferred Reporting Items for Systematic reviews and Meta-analyses for Protocols (PRISMA-P) matrix. A total of 552 scientific publications on the Web of Science (WoS) have been analyzed. Our results show that scientific productions on ARHE are not abundant, tracing its beginnings to the year 1997, with its most productive period beginning in 2015. The most abundant studies are communications and articles (generally in English), with a wide thematic variety in which the bibliometric indicators “virtual environments” and “higher education” stand out. The main sources of origin are International Technology, Education and Development Conference (INTED) Proceedings and Education and New Learning Technologies (EDULEARN) Proceedings, although Spanish institutions are the most prolific. In conclusion, studies related to ARHE in the WoS have become increasingly abundant since ARHE’s research inception in 1997 (and especially since 2009), dealing with a wide thematic variety focused on “virtual environments” and “higher education”; abundant manuscripts are written in English (communications and articles) and originate from Spanish institutions. The main limitation of the study is that the results only reveal the status of this issue in the WoS database.

[1]  Pelin Yildirim,et al.  Research trends in the use of augmented reality in science education: Content and bibliometric mapping analysis , 2019, Comput. Educ..

[2]  Dieter Schmalstieg,et al.  Mathematics and geometry education with collaborative augmented reality , 2003, Comput. Graph..

[3]  Inmaculada Aznar-Díaz,et al.  Augment reality and virtual reality for the improvement of spatial competences in Physical Education , 2018 .

[4]  Julio Cabero-Almenara,et al.  Evaluación por y desde los usuarios: objetos de aprendizaje con Realidad aumentada , 2017 .

[5]  Aaron C. Clark,et al.  Augmented Reality Research in Education: A Bibliometric Study , 2019, EURASIA Journal of Mathematics, Science and Technology Education.

[6]  Julio Cabero Almenara,et al.  Motivación y realidad aumentada: alumnos como consumidores y productores de objetos de aprendizaje , 2018 .

[7]  F. Hinojo-Lucena,et al.  Diseño e implementación de una experiencia para trabajar la interculturalidad en Educación Infantil a través de realidad aumentada y códigos QR , 2019, Educar.

[8]  Isabel Gutiérrez Porlán,et al.  Competencia digital: una necesidad del profesorado universitario en el siglo XXI , 2018 .

[10]  Murat Akçayır,et al.  Advantages and challenges associated with augmented reality for education: A systematic review of the literature , 2017 .

[11]  Purificación Toledo Morales,et al.  Realidad Aumentada en Educación Primaria: efectos sobre el aprendizaje , 2017 .

[12]  María Esther Zaratiegui Pérez,et al.  Juegos perceptivos con realidad aumentada para trabajar contenido científico , 2017 .

[13]  Almudena Castellanos Sánchez,et al.  Nuevos modelos tecnopedagógicos. Competencia digital de los alumnos universitarios , 2017 .

[14]  Christian Gütl,et al.  Virtual laboratories for education in science, technology, and engineering: A review , 2016, Comput. Educ..

[15]  Julio Cabero Almenara,et al.  Comunidades virtuales de aprendizaje.El caso del proyecto de realidad aumentada: RAFODIUM , 2017 .

[16]  J. Belmonte,et al.  La eficacia de la Realidad Aumentada en las aulas de Infantil: un estudio del aprendizaje de SVB y RCP en discentes de 5 años , 2019, Pixel-Bit, Revista de Medios y Educación.

[17]  Ramiz M. Aliguliyev,et al.  New bibliometric indicators for prospectivity estimation of research fields , 2018 .

[18]  Manuel J. Cobo,et al.  30 years of intelligence models in management and business: A bibliometric review , 2019, Int. J. Inf. Manag..

[19]  E. Herrera‐Viedma,et al.  Analyzing the Scientific Evolution of Social Work Using Science Mapping , 2015 .

[20]  Rosabel Roig-Vila,et al.  The Motivation of Technological Scenarios in Augmented Reality (AR): Results of Different Experiments , 2019, Applied Sciences.

[21]  Kun-Hung Cheng Reading an Augmented Reality Book: An Exploration of Learners' Cognitive Load, Motivation, and Attitudes. , 2016 .

[22]  Carlos Manuel Castaño Garrido,et al.  Percepciones del alumnado hacia el aprendizaje mediante objetos educativos enriquecidos con realidad aumentada , 2016 .

[23]  V. Díaz,et al.  Trabajar el cuerpo humano con realidad aumentada en educación infantil , 2018 .

[24]  Julio Cabero Almenara,et al.  Los escenarios tecnológicos en Realidad Aumentada (RA): posibilidades educativas , 2018 .

[25]  Murat Akcay,et al.  Advantages and challenges associated with augmented reality for education : A systematic review of the literature , 2017 .

[26]  J. Cadavieco,et al.  La producción científica sobre Realidad Aumentada, un análisis de la situación educativa desde la perspectiva SCOPUS , 2016 .

[27]  Antonio-José Moreno-Guerrero,et al.  Productive, Structural and Dynamic Study of the Concept of Sustainability in the Educational Field , 2019, Sustainability.

[28]  Ana Viñals Blanco,et al.  El rol del docente en la era digital , 2016 .

[29]  Gonzalo Lorenzo Lledó,et al.  Revisión bibliométrica sobre la realidad aumentada en Educación , 2018 .

[30]  Jorge Bacca,et al.  Augmented Reality Trends in Education: A Systematic Review of Research and Applications , 2014, J. Educ. Technol. Soc..

[31]  José Manuel Andújar Márquez,et al.  Augmented Reality for the Improvement of Remote Laboratories: An Augmented Remote Laboratory , 2011, IEEE Transactions on Education.

[32]  A. M. Moreno Guerrero Estudio Bibliométrico de la Producción Científica sobre la Inspección Educativa , 2019, REICE. Revista Iberoamericana sobre Calidad, Eficacia y Cambio en Educación.

[33]  Noor Christoph,et al.  Augmented reality in medical education? , 2014, Perspectives on Medical Education.

[34]  Jane Prophet,et al.  The state of immersive technology research: A literature analysis , 2018, Comput. Hum. Behav..

[35]  Iulian Radu,et al.  Augmented reality in education: a meta-review and cross-media analysis , 2014, Personal and Ubiquitous Computing.

[36]  L. Castañeda,et al.  Por qué es necesario repensar la competencia docente para el mundo digital , 2018 .

[37]  Mariano Alcañiz Raya,et al.  Design and validation of an augmented book for spatial abilities development in engineering students , 2010, Comput. Graph..

[38]  Francisco Herrera,et al.  Science mapping software tools: Review, analysis, and cooperative study among tools , 2011, J. Assoc. Inf. Sci. Technol..

[39]  Steve Chi-Yin Yuen,et al.  Augmented Reality and Education: Applications and Potentials , 2013 .

[40]  Carlos Espinosa Realidad aumentada y educación: análisis de experiencias prácticas , 2014 .

[41]  Wei Cheng,et al.  A review of using Augmented Reality in Education from 2011 to 2016 , 2017 .

[42]  Enrique Herrera-Viedma,et al.  Virtual and remote labs in education: A bibliometric analysis , 2016, Comput. Educ..

[43]  J. E. Hirsch,et al.  An index to quantify an individual's scientific research output , 2005, Proc. Natl. Acad. Sci. USA.