Interactive Media to Support Language Acquisition for Deaf Students

Dr. Becky Sue Parton*, Dr. Robert Hancock**, MindyCrain-Dorough***, ****
*-*** Assistant Professors, Educational Leadership and Technology, Southeastern Louisiana University
**** Professor, Educational Leadership and Technology, Southeastern Louisiana University
Periodicity:June - August'2009
DOI : https://doi.org/10.26634/jsch.5.1.229

Abstract

Tangible computing combines digital feedback with physical interactions - an important link for young children.  Through the use of Radio Frequency Identification (RFID) technology, a real-world object (i.e. a chair) or a symbolic toy (i.e. a stuffed bear) can be tagged so that students can activate multimedia learning modules automatically.  The authors developed a prototype called LAMBERT (Language Acquisition Manipulatives Blending Early-childhood Research and Technology).  It is designed specifically for Deaf children who often need additional exposure to language since the majority of their parents are hearing and not fluent in American Sign Language (ASL).  When a child scans a toy, a 15 second multimedia presentation is played that depicts the word in ASL and shows related images.  After an initial positive pilot study to test feasibility, the system was integrated into the early childhood curriculum at the Louisiana School for the Deaf for four weeks.  Twenty four vocabulary words were taught; half of the words were targeted for supplemental instruction through the LAMBERT system.  At the end of the unit, students’ vocabulary comprehension was tested. This paper discusses the results of the study and implications for easily-accessed multimedia for young children.

Keywords

Deaf, Multimedia, Tangible Computing, RFID, Exploratory Learning, Educational Technology.

How to Cite this Article?

Becky Sue Parton ,Robert Hancock, MindyCrain-Dorough andJeff Oescher (2009). Interactive Media to Support Language Acquisition for Deaf Students.i-manager’s Journal on School Educational Technology. 5(1), 17-24. https://doi.org/10.26634/jsch.5.1.229

References

[1]. Ardis, S. (2006). ASL Animations supporting literacy development for learners who are deaf. Closing the Gap, 24(5), p. 1-4.
[2]. Burik, L., & Kelly, W. (2003, March). Active learning through technology-creating a technology- infused environment to engage deaf students in the learning process. Paper presented at the Technology and Disabled Persons Conference, Los Angeles, CA.
[3]. Chamberlain, C., Morford, J., & Mayberry, R. (2000) Language Acquisition by Eye. Lawrence Erlbaum As sociates, Hardbound ISBN: 0-8058-2937-7, xvii+276pp.
[4]. Chipman, G., Druin, A., Beer, D., Fails, J., Guha, M., & Simms, S. (2006). A case study of tangible flags: a collaborative technology to enhance field trips. Paper presented at the 5th International Conference for Interactive Design and Children (IDC), Tampere, Finland.
[5]. Easterbrooks, S., & Stephenson, B. (2006). An examination of twenty literacy, science, and mathematics practices used to educate students who are deaf or hard of hearing. American Annals of the Deaf, 151(4), p. 385-397.
[6]. Erting, L. & Pfau, J. (1997). Becoming bilingual: facilitating English literacy development using ASL in preschool. A Sharing Ideas series paper by the Laurent Clerc National Deaf Education Center, Gallaudet University.
[7]. Gentry, M., Chinn, K., & Moulton, R. (2005). Effectiveness of multimedia reading materials when used with children who are deaf. American Annals of the Deaf, 149(5), p. 394-403.
[8]. Girouard, A., Solovey, E., Hirshfield, L., Ecott, S., Shaer, O., & Jacob, R. (2007). Smart blocks: A tangible st mathematical manipulative. Paper presented at the 1 International Conference on Tangible and Embedded Interaction (TEI), Baton Rouge, Louisiana.
[9]. Hengeveld, B., Voort, R., Balkom, H., Hummels, C., & Moor, J. (2007). Designing for diversity: developing complex adaptive tangible products. Paper presented  at the 1st International Conference on Tangible and Embedded Interaction (TEI), Baton Rouge, Louisiana.
[10]. Hoofmeister, R., &Wilbur, R. (1980). The acquisition of Sign Language, In H. Lane & F Grosjean (Eds.), Recent perspectives on American Sign Lanuage (pp. 61-78). New Jersey: lawrence Eribaum Associates, Publishers..
[11]. Marshall, P. (2007). Do tangible interfaces enhance st learning? Paper presented at the 1st International Conference on Tangible and Embedded Interaction (TEI), Baton Rouge, Louisiana.
[12]. Naqvi, S., Ohene-Djan, J., & Spiegel, R. (2005, June). Testing the effectiveness of digital representations of sign language content. Paper presented at the Instructional Technology and Education of the Deaf International Symposium, Rochester, NY.
[13]. Papadimitriou, I., Komis, V., Tselios, N., & Avouris, N. (2006, December). Designing PDA mediated educational activities for a museum visit. Paper presented at Cognition and Exploratory Learning in Digital Age (CELDA), Barcelona, Spain.
[14]. Parton, B. (2006, October). Technology-minded general educators and deaf educators: a comparison study. Paper presented at the World Conference on Elearning in corporate, government, healthcare, and higher education, Honolulu, Hawaii.
[15]. Parton, B. & Hancock, R. (2008). When physical and digital words collide: A tool for early childhood learners. Tech Trends, 52(5), p.22-25
[16]. Parton, B., Hancock, R., & Mihir (2009). Physical world hyperlinking: Can computer-based Instruction in a K-6 educational setting be easily accessed through tangible tagged objects? Journal of Interactive Learning Research. (in press)
[17]. Price, S. (2008). A representation approach to conceptualizing tangible learning environments. Paper presented at the 2nd International Conference on Tangible and Embedded Interaction (TEI), Bonn, Germany.
[18]. RFID Learning Table (n.d.) Ducks and Frogs. Retrieved January 6, 2008 from http://www.rfidlearning table.com.
[19]. Stifter, R. (2005, June). Technology in the ASL/English Bilingual Classroom. Paper presented at the Instructional Technology and Education of the Deaf International Symposium, Rochester, NY.
[20]. Sung, J., Levisohn, A., Song, J, Tomassetti, B., & Mazalek, A. (2007). Shadow box: an interactive learning toy for children. Paper presented at the First IEEE International Workshop on Digital Game and Intelligent Toy Enhanced Learning (DIGITEL), Jhongli City, Taiwan.
[21]. The National Agenda. (2005, April). Moving forward on achieving educational equality for deaf and hard of hearing students. Printed by the Texas School for the Deaf.
[22]. Valkkynen, P., Niemela, M., & Tuomisto, T. (2006). Evaluating touching and pointing with a mobile terminal th for physical browsing. Paper presented at the 4 Nordic Conference on Human-computer Interaction, Oslo, Norway
[23]. Whitehouse, I. & Ragus, M. (2006, November). Elearning using radio frequency identification (RFID) device scoping study. Australian Government Department of Education, Science, and Training. Retrievedfrom on January 3, 2008. http://www.rfidlearning table.com. http://industry.flexiblelearning.net.au/ 2006 /rfid_scoping_study_8dec06.pdf
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