An IoT-Based Approach for Learning Geometric Shapes in Early Childhood

In today’s world, technology has assumed an indispensable role in everyday life. However, though developments in the Internet of Things (IoT) have laid a foundation for achieving different educational purposes, IoT is not being employed to its full potential. A separate issue is that the topic of geometry has been neglected or received only limited attention in schools, particularly in the early years. Moreover, as geometry is of paramount importance, the idea of teaching geometry in early childhood should be investigated. This paper proposes an IoT-based approach for teaching basic geometric shapes to children aged 5 to 6. Specifically, five nodes were designed to act as the vertices of shapes. In addition, educational videos comprising three sections —identification, recognition, and recollection — were provided. Using a sample of 35 boys the proposed solution was assessed in terms of its effect on learning outcomes and the learning process using pre-test, simultaneous test, and post-tests. The findings revealed a noticeable improvement in learning outcomes. Furthermore, the proposed approach made learning enjoyable, which, compared to the traditional approach toward learning geometric shapes, is considered an improvement.

[1]  Charles Champagne Cossette,et al.  Reducing Two-Way Ranging Variance by Signal-Timing Optimization , 2022, ArXiv.

[2]  Qiuju Zhong,et al.  Design and Optimization of Children’s Education Online Monitoring System Based on 5G and Internet of Things , 2022, Scientific Programming.

[3]  L. Ling,et al.  The use of Internet of Things devices in early childhood education: A systematic review , 2022, Education and Information Technologies.

[4]  P. Mariati,et al.  Before the pandemic and its impact to the future" about IoT and the transformation of children's social education , 2022, Pegem Journal of Education and Instruction.

[5]  A. Sadeghi-Niaraki,et al.  A Survey of GIS and IoT Integration: Applications and Architecture , 2021, Applied Sciences.

[6]  H. Yeh,et al.  Enhancing EFL vocabulary learning with multimodal cues supported by an educational robot and an IoT-Based 3D book , 2021, System.

[7]  Petar Solic,et al.  Geometry from Thin Air: Theremin as a Playful Learning Device , 2021, 2021 16th International Conference on Telecommunications (ConTEL).

[8]  Otilia Clipa,et al.  Implications of Using Technology on Children, Teachers and Parents in Early Education , 2021, Trends and Prospects of the Education System and Educators’ Professional Training Development.

[9]  Jacobo Sandoval-Gutierrez,et al.  Sensor Information Sharing Using a Producer-Consumer Algorithm on Small Vehicles , 2021, Sensors.

[10]  S. Havu-Nuutinen,et al.  Understanding Early Childhood Science Education: Comparative Analysis of Australian and Finnish Curricula , 2021, Research in Science Education.

[11]  Ascertaining the UX of the Word Mania Mobile App for Children using Fun Toolkit v3 , 2019, International Journal of Recent Technology and Engineering.

[12]  Judith H. Danovitch Growing up with Google: How children's understanding and use of internet‐based devices relates to cognitive development , 2019, Human Behavior and Emerging Technologies.

[13]  A. Redfors,et al.  Preschool children’s Collaborative Science Learning Scaffolded by Tablets , 2018 .

[14]  Arthur James Swart,et al.  Selection and evaluation of mobile mathematical learning applications , 2018, 2018 IEEE Global Engineering Education Conference (EDUCON).

[15]  Fernando Ramos,et al.  The Power of the Internet of Things in Education: An Overview of Current Status and Potential , 2017 .

[16]  Michelle D. Vaughan,et al.  Using an Exploratory Professional Development Initiative to Introduce iPads in the Early Childhood Education Classroom , 2017 .

[17]  Courtney K. Blackwell,et al.  Factors influencing digital technology use in early childhood education , 2014, Comput. Educ..

[18]  Peggy A. Ertmer,et al.  Teacher beliefs and technology integration practices: A critical relationship , 2012, Comput. Educ..

[19]  J. Sarama,et al.  Early childhood teacher education: the case of geometry , 2011 .

[20]  Albert Sangrà,et al.  The role of information and communication technologies in improving teaching and learning processes in primary and secondary schools , 2010 .

[21]  Ellen Wartella,et al.  YOUNG CHILDREN, NEW MEDIA , 2007 .

[22]  Stuart MacFarlane,et al.  Using the fun toolkit and other survey methods to gather opinions in child computer interaction , 2006, IDC '06.

[23]  Me Chambers,et al.  The Identification and Assessment of Young Children with Movement Difficulties Identification et e´valuation des jeunes souffrant de difficulte´s d'ordre moteur La Identificación y Evaluación de Niños de Preescolar con Problemas de Movimento , 2002 .

[24]  Sohail Iqbal Malik,et al.  A Survey of Internet of Things (IoT) in Education: Opportunities and Challenges , 2019, Toward Social Internet of Things (SIoT): Enabling Technologies, Architectures and Applications.

[25]  S. Higgins,et al.  Embedding educational technologies in early years education , 2019, Research in Learning Technology.

[26]  Yuri Kumagai,et al.  Multiliteracies in world language education , 2016 .