Near Field Communication Mobiquitous Learning System

The revolutionary integration of Near Field Communication (NFC) into smartphones has radically enabled new participatory learning applications between objects and the mobile phones. NFC-enabled smartphone technology can be used as a springboard to fuel mobiquitous learning applications that could potentially change the students' digital learning lifestyle, where interactive learning content is seamlessly integrated into the home environment. However, the application of NFC-enabled mobiquitous learning at home is still in a nascent stage. Therefore, a novel design and development of a Near Field Communication mobiquitous Learning System (NFC MoLS) with the use of photo interface and NFC-enabled smartphone is presented. The aim of the proposed system is to bridge the gap of cyber-physical spaces by enabling students to learn without imposing undue technological effort and inconvenience, through user-friendly and intuitive touch-driven interaction. NFC MoLS could potentially transcend conventional learning systems into a more dynamic environment where students are permitted more degrees of freedom when accessing educational contents through either smartphones or TVs, making the learning experience at home more exciting, pleasurable and entertaining. An initial evaluation was carried out to obtain feedback from a group of randomly chosen participants and the results indicated that NFC MoLS is fast, intuitive and convenient to use. This study offers a fresh insight for academicians to exploit the NFC and home automation technologies when designing learning activities to enhance learning at home.

[1]  Alexandra Dmitrienko,et al.  Smart keys for cyber-cars: secure smartphone-based NFC-enabled car immobilizer , 2013, CODASPY.

[2]  Christof Paar,et al.  Efficient E-Cash in Practice: NFC-Based Payments for Public Transportation Systems , 2013, Privacy Enhancing Technologies.

[3]  Patrick Bours,et al.  Biometric access control using Near Field Communication and smart phones , 2012, 2012 5th IAPR International Conference on Biometrics (ICB).

[4]  Harry Gruppen,et al.  Exploring the Potential of Smartphones and Tablets for Performance Support in Food Chemistry Laboratory Classes , 2013 .

[5]  Gang Pan,et al.  Touch-driven interaction via an NFC-enabled smartphone , 2012, 2012 IEEE International Conference on Pervasive Computing and Communications Workshops.

[6]  Stefan Saroiu,et al.  Home automation in the wild: challenges and opportunities , 2011, CHI.

[7]  Noriyasu Yamamoto,et al.  An Interactive Learning System Using Smartphone for Improving Students Learning Motivation , 2013, ITCS.

[8]  Garry Wei-Han Tan,et al.  Predicting the determinants of the NFC-enabled mobile credit card acceptance: A neural networks approach , 2013, Expert Syst. Appl..

[9]  Serge Miranda,et al.  NFC Mobiquitous Information Service Prototyping at the University of Nice Sophia Antipolis and Multi-mode NFC Application Proposal , 2011, 2011 Third International Workshop on Near Field Communication.

[10]  Irene Luque Ruiz,et al.  Use of NFC-based Pervasive Games for Encouraging Learning and Student Motivation , 2011, 2011 Third International Workshop on Near Field Communication.

[11]  Jukka Riekki,et al.  Touching Nametags with NFC Phones: A Playful Approach to Learning to Read , 2013, Trans. Edutainment.

[12]  Jukka Riekki,et al.  NFC-based interactive learning environments for children , 2011, IDC.

[13]  Jeanne Lam,et al.  A Review of Mobile Learning Environment in Higher Education Sector of Hong Kong: Technological and Social Perspectives , 2012, ICHL.

[14]  Toshihiko Wakahara,et al.  Indoor Navigation System for Wheelchair Using Smartphones , 2013, ITCS.