Abstract
Purpose
To explore the environmental facilitators and barriers affecting K-12 students with physical disabilities when using two assistive technology (AT) strategies, LEGO Mindstorms robots and a computer, in mathematics lessons.
Materials and methods
A qualitative multiple case study with three students with physical disabilities was conducted. The participants did five lessons in concepts they were studying in school with each AT strategy in a controlled environment. Observations of the lessons, and parent and teacher interviews after the last session were collected.
Results
The AT strategies acted as facilitators because they were easy to use, participants could participate actively, and parents and school staff wanted to implement them. However, the strategies presented some barriers since the students required more time to complete the lessons with the robot, and some computer programs were not compatible with the students’ skills. Also, barriers such as lack of technical knowledge on the part of parents and teachers, distractions in the environment, and funding issues were reported.
Conclusion
This study may be useful for rehabilitation staff and teachers who are considering implementing AT to support the participation of students with disabilities. Personnel needs to be trained to use the AT strategies, and several modifications may be necessary for the satisfactory use of the devices.
Hands-on manipulation promotes the active learning of early mathematical concepts. Students with disabilities may have the opportunity to participate in active learning through assistive technology (AT).
Knowledge about environmental factors that may facilitate or limit the use of AT in the classroom will help teaching staff make decisions when implementing these strategies with students with disabilities.
The use of an AT strategy may depend on the objectives the rehabilitation staff and teachers want to achieve during a task. For instance, the robot could be used for tailoring a task according to the student’s needs and abilities. On the other hand, computer programs could be considered if time and ease of use are important factors.
IMPLICATIONS FOR REHABILITATION
Acknowledgements
Our thanks go to Robert Morgan and Bonnie-Lynn David for leading the sessions with the participants and for contributing valuable insights during the group discussions. We also want to thank the I CAN Centre for Assistive Technology team for their advice and assistance. Our last thank you is to the children and their families for participating and sharing their time with us.
Disclosure statement
No potential conflict of interest was reported by the author(s).
Notes
1 Manufactured by Ablenet Inc., 2625 Patton Road, Roseville, Minnesota 55113-1137.
2 Manufactured by Prentke Romich Company., 1022 Heyl Road, Wooster, Ohio, 44691.
3 Manufactured by AssistiveWare, Laurierstraat 193, 1016 PL Amsterdam, Nederland.
4 Manufactured by MathWorks., 1 Apple Hill Drive, Natick, Massachusetts, 01760-2098.
5 Manufactured by Smartbox Assistive Technology, Ysobel House, Enigma Commercial Centre, Sandys Road Malvern, WR14 1JJ.
6 Manufactured by Tobii Dynavox, 2100 Wharton Street, Suite 400, Pittsburgh, PA 15203.
7 Manufactured by Don Johnston Incorporated, 26799 West Commerce Drive, Volo, Illinois 60073.
8 Manufactured by Origin Instruments Corporation, 854 Greenview Drive, Grand Prairie, Texas, 75050.
9 Manufactured by TechSmith Corporation, 2405 Woodlake Drive, Okemos, Michigan 48864-5910.
10 Manufactured by QSR International, 35 Corporate Drive, Burlington, MA 01803.