Ability of children to perform touchscreen gestures and follow prompting techniques when using mobile apps |
Yadav, Savita
(Department of Computer Science and Engineering, Netaji Subhas University of Technology)
Chakraborty, Pinaki (Department of Computer Science and Engineering, Netaji Subhas University of Technology) Kaul, Arshia (Department of Computer Science and Engineering, Netaji Subhas University of Technology) Pooja, Pooja (Department of Computer Science and Engineering, Netaji Subhas University of Technology) Gupta, Bhavya (Department of Computer Science and Engineering, Netaji Subhas University of Technology) Garg, Anchal (Department of Computer Science and Engineering, Netaji Subhas University of Technology) |
1 | Chau CL. Positive technological development for young children in the context of children's mobile apps [dissertation]. Medford (MA): Tufts University, 2014. |
2 | Yadav S, Chakraborty P. Smartphone apps can entertain and educate children aged two to six years but should be used with caution. Acta Paediatr 2018;107:1834-5. DOI |
3 | Eisen S, Lillard AS. Young children's thinking about touchscreens versus other media in the US. J Child Media 2017;11:167-79. DOI |
4 | Lim CH, Kim EJ, Kim JH, Lee JS, Lee Y, Park SH. The correlation of depression with Internet use and body image in Korean adolescents. Korean J Pediatr 2017;60:17-23. DOI |
5 | Yadav S, Chakraborty P. Children aged two to four are able to scribble and draw using a smartphone app. Acta Paediatr 2017;106:991-4. DOI |
6 | Yadav S, Chakraborty P. Using smartphones with suitable apps can be safe and even useful if they are not misused or overused. Acta Paediatr 2018;107:384-7. DOI |
7 | Hirsh-Pasek K, Zosh JM, Golinkoff RM, Gray JH, Robb MB, Kaufman J. Putting education in "educational" apps: lessons from the science of learning. Psychol Sci Public Interest 2015;16:3-34. DOI |
8 | Callaghan MN, Reich SM. Are educational preschool apps designed to teach? An analysis of the app market. Learn Media Tech 2018;43:280-93. DOI |
9 | Gallup JL, Ray BB, Bennett CA. Leveraging mobile technologies to support active learning for all students: smartphones to support learning. In: Baruch AF, Tal HM, editors. Mobile technologies in educational organizations. Hershey (PA): IGI Global, 2019:302-26. |
10 | Anthony L, Brown Q, Nias J, Tate B, Mohan, S. Interaction and recognition challenges in interpreting children's touch and gesture input on mobile devices. In: Proceedings of the ACM International Conference on Interactive Tabletops and Surfaces; 2012 Nov; Cambridge, MA. New York (NY): Association for Computing Machinery, 2012:225-34. |
11 | Abdul Aziz NA. Children's interaction with tablet applications: gestures and interface design. Int J Comput Inf Tech 2013;2:447-50. |
12 | Barendregt W, Bekker MM. Children may expect drag-and-drop instead of point-and-click. In: CHI Conference on Human Factors in Computing Systems; 2011 May; Vancouver, BC. New York (NY): Association for Computing Machinery, 2011:1297-302. |
13 | Nacher V, Jaen J, Navarro E, Catala A, Gonzalez P. Multi-touch gestures for pre-kindergarten children. Int J Hum Comput Stud 2015;73:37-51. DOI |
14 | Hiniker A, Sobel K, Hong SR, Suh H, Irish I, Kim D, Kientz JA. Touchscreen prompts for preschoolers: Designing developmentally appropriate techniques for teaching young children to perform gestures. In: Proceedings of the Fourteenth International Conference on Interaction Design and Children; 2015 Jun; Boston, MA. New York (NY): Association for Computing Machinery, 2015:109-18. |
15 | McKnight L, Fitton D. Touchscreen technology for children: giving the right instructions and getting the right responses. In: Proceedings of the Ninth International Conference on Interaction Design and Children; 2010 Jun; Barcelona, Spain. New York (NY): Association for Computing Machinery, 2010:238-41. |