Abstract
Interactive robots are seen as an efficient tool for the improvement of the social communication skills of autistic children. Recent studies show that the effectiveness of the human-robot interaction can be improved further if the robot can provide positive feedback to the child when he/she demonstrates behaviour or social skills as expected. However, there is no clear answer to which visual stimuli and which combination of visual stimuli could attract better attention. In this paper we present initial results from our study of the response of participants with autism traits to four visual stimuli. We conducted a series of experiments where the experimental system provided a visual response to the user’s actions and monitored the user’s performance for each visual stimulus. The experiments were organised as a game and included four groups of participants with different levels of autism. The results showed that a colour tended to be the most effective way for robot interaction with autistic people. The results could help the design of very effective assistive robots for supporting people with autism.
References
[1] B. Robins, E. Ferrari, K. Dautenhahn, G. Kronreif, B. Prazak-Aram, G. Gelderblom, B. Tanja, F. Caprino, E. Laudanna and P. Marti, ”Human-centred design methods: Developing scenarios for robot assisted play informed by user panels and field trials”, Int. J. Hum.-Comput. Stud., vol. 68, no. 12, pp. 873-898, Dec. 2010.10.1016/j.ijhcs.2010.08.001Search in Google Scholar
[2] B. Scassellati, Henny Admoni and M. Mataric, ”Robots for Use in Autism Research”, Annu. Rev. Biomed. Eng., vol. 14, no. 1, pp. 275-294, Aug. 2012.10.1146/annurev-bioeng-071811-150036Search in Google Scholar
[3] A. Duquette, F. Michaud and H. Mercier, ”Exploring the use of a mobile robot as an imitation agent with children with lowfunctioning autism”, Auton. Robots, vol. 24, no. 2, pp. 147-157, Oct. 2007.10.1007/s10514-007-9056-5Search in Google Scholar
[4] J. J. Diehl, L. M. Schmitt, M. Villano and C. R. Crowell, ”The clinical use of robots for individuals with Autism Spectrum Disorders: A critical review”, Res. Autism Spectr. Disord., vol. 6, no. 1, pp. 249-262, Jan. 2012.10.1016/j.rasd.2011.05.006Search in Google Scholar
[5] V. K. Tubbs, ”Types of linguistic disability in psychotic children”, J. Intellect. Disabil. Res., vol. 10, no. 3, pp. 230-240, 1966.10.1111/j.1365-2788.1966.tb00188.xSearch in Google Scholar
[6] K. A. Quill, Teaching children with autism: strategies to en-hance communication and socialization. New York: Delmar Publishers, 1995.Search in Google Scholar
[7] K. A. Quill, ”Instructional considerations for young children with autism: The rationale for visually cued instruction.”, J. Autism Dev. Disord. J. Autism Dev. Disord., vol. 21, pp. 697-714, 1997.Search in Google Scholar
[8] T. Grandin, Thinking in pictures: and other reports from mylife with autism. London: Bloomsbury, 2006.Search in Google Scholar
[9] E. G. Carr, J. A. Binkoff, E. Kologinsky and M. Eddy, ”Acquisition of sign language by autistic children. I: Expressive labelling.”, J. Appl. Behav. Anal., vol. 11, no. 4, pp. 489-501, 1978.10.1901/jaba.1978.11-489Search in Google Scholar
[10] L. A. Hodgdon, Solving Behaviour Problems in Autism: Im-proving Communication with Visual Strategies. Troy, Mich: QuirkRoberts Pub, 1999.Search in Google Scholar
[11] J. E. Janzen, Understanding the nature of autism: a guideto the autism spectrum disorders, 2nd ed. San Antonio, TX: Therapy Skill Builders, 2003.Search in Google Scholar
[12] U. Frith, ”Studies in pattern detection in normal and autistic children”, J. Exp. Child Psychol., vol. 10, no. 1, pp. 120-135, Aug. 1970.10.1016/0022-0965(70)90049-4Search in Google Scholar
[13] U. Frith, ”Cognitive mechanisms in autism: Experiments with color and tone sequence production”, J. Autism Child. Schizophr., vol. 2, no. 2, pp. 160-173, Jun. 1972.10.1007/BF01537569Search in Google Scholar PubMed
[14] C. Moore, George and Sam. London: Viking, 2004.Search in Google Scholar
[15] H. Koshino, R. K. Kana, T. A. Keller, V. L. Cherkassky, N. J. Minshew and M. A. Just, ”fMRI Investigation of Working Memory for Faces in Autism: Visual Coding and Underconnectivity with Frontal Areas”, Cereb. Cortex, vol. 18, no. 2, pp. 289-300, May 2007.10.1093/cercor/bhm054Search in Google Scholar PubMed PubMed Central
[16] R. Wilson, O. Pascalis, and M. Blades, ”Familiar Face Recognition in Children with Autism: The Differential use of Inner and Outer Face Parts”, J. Autism Dev. Disord., vol. 37, no. 2, pp. 314-320, Jul. 2006.10.1007/s10803-006-0169-zSearch in Google Scholar PubMed
[17] J. Sinzig, D. Morsch and G. Lehmkuhl, ”Do hyperactivity, impulsivity and inattention have an impact on the ability of facial affect recognition in children with autism and ADHD?”, Eur. Child Ado-lesc. Psychiatry, vol. 17, no. 2, pp. 63-72, Sep. 2007.10.1007/s00787-007-0637-9Search in Google Scholar PubMed
[18] B. Robins, K. Dautenhahn and J. Dubowski, ”Does appearance matter in the interaction of children with autism with a humanoid robot?”, Interact. Stud., vol. 7, no. 3, pp. 509-542, Jan. 2006.10.1075/is.7.3.16robSearch in Google Scholar
[19] J. R. Bemporad, ”Adult recollections of a formerly autistic child”, J. Autism Dev. Disord., vol. 9, no. 2, pp. 179-197, Jun. 1979.10.1007/BF01531533Search in Google Scholar PubMed
[20] T. Smits, Autism: beyond despair. Emryss Publishers, 2010.Search in Google Scholar
[21] V. Wire, ”Autistic Spectrum Disorders and learning foreign languages”, Support Learn., vol. 20, no. 3, pp. 123-128, Aug. 2005.10.1111/j.0268-2141.2005.00375.xSearch in Google Scholar
[22] J. Tipples, ”Eye gaze is not unique: Automatic orienting in response to uninformative arrows”, Psychon. Bull. Rev., vol. 9, no. 2, pp. 314-318, Jun. 2002.10.3758/BF03196287Search in Google Scholar
[23] A. Senju, Y. Tojo, H. Dairoku and T. Hasegawa, ”Reflexive orienting in response to eye gaze and an arrow in children with and without autism”, J. Child Psychol. Psychiatry, vol. 45, no. 3, pp. 445-458, Mar. 2004.10.1111/j.1469-7610.2004.00236.xSearch in Google Scholar PubMed
[24] G. Kuhn, V. Benson, S. Fletcher-Watson, H. Kovshoff, C. A. Mc- Cormick, J. Kirkby and S. R. Leekam, ”Eye movements affirm: automatic overt gaze and arrow cueing for typical adults and adults with autism spectrum disorder”, Exp. Brain Res., vol. 201, no. 2, pp. 155-165, Oct. 2009.10.1007/s00221-009-2019-7Search in Google Scholar PubMed
[25] M. L. Knapp, Nonverbal communication in human interaction. New York: Holt, Rinehart and Winston, 1972.Search in Google Scholar
[26] B. Robins, K. Dautenhahn and P. Dickerson, ”From Isolation to Communication: A Case Study Evaluation of Robot Assisted Play for Children with Autism with a Minimally Expressive Humanoid Robot”, in Proceeding of the 2nd International Conferences on Advances in Computer-Human Interactions, 2009, pp. 205- 211.10.1109/ACHI.2009.32Search in Google Scholar
[27] J. Lee, H. Takehashi, C. Nagai and G. Obinata, ”Design of a therapeutic robot for interacting with autistic children through interpersonal touch”, in Proceeding of the 21st IEEE International Symposium on Robot and Human Interactive Communication, 2012, pp. 712-717.10.1109/ROMAN.2012.6343835Search in Google Scholar
[28] O. Bogdashina, Sensory perceptual issues in autism and As-perger Syndrome different sensory experiences, differentperceptual worlds. London; New York: Jessica Kingsley, 2003.Search in Google Scholar
[29] P. Caldwell, Getting in touch: ways of working with peo-ple with severe learning disabilities and extensive supportneeds. Brighton: Pavilion Publishing: Joseph Rowntree Foundation, 1996.Search in Google Scholar
[30] B. Robins, K. Dautenhahn and P. Dickerson, ”Embodiment and Cognitive Learning - Can a Humanoid Robot Help Children with Autism to Learn about Tactile Social Behaviour?”, SocialRobotics, vol. 7621, S. S. Ge, O. Khatib, J.-J. Cabibihan, R. Simmons, and M.-A. Williams, Eds. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012, pp. 66-75.Search in Google Scholar
[31] G. B. Mesibov, The TEACCH approach to autism spec-trum disorders. New York: Kluwer Academic/Plenum Publishers, 2005, pp. 96.Search in Google Scholar
[32] J. H. Foss-Feig, J. L. Heacock and C. J. Cascio, ”Tactile responsiveness patterns and their association with core features in autism spectrum disorders”, Res. Autism Spectr. Disord., vol. 6, no. 1, pp. 337-344, Jan. 2012.10.1016/j.rasd.2011.06.007Search in Google Scholar PubMed PubMed Central
[33] K. D. Buron and M. Curtis, The incredible 5-point scale: as-sisting students in understanding social interactions andcontrolling their emotional responses, Significantly improved and expanded 2nd ed. Shawnee Mission, Kan: AAPC Pub, 2012.Search in Google Scholar
[34] Simon Baron-Cohen, Sally Wheelwright, Richard Skinner, Joanne Martin, and Emma Clubley, ”The Autism-Spectrum Quotient (AQ): Evidence from Asperger Syndrome/High-Functioning Autism, Malesand Females, Scientists and Mathematicians”, J. AutismDev. Disord., vol. 31, no. 1, pp. 5-17, Feb. 2001.Search in Google Scholar
[35] Jeremy N. Bailenson, Nick Yee, Scott Brave, Dan Merget, and David Koslow, ”Virtual interpersonal touch: expressing and recognizing emotions through haptic devices”, Hum.-Comput. In-teract., vol. 22, no. 3, pp. 325-353, Aug. 2007.Search in Google Scholar
[36] J. Lee, H. Takehashi, C. Nagai, G. Obinata and D. Stefanov, ”Which Robot Features Can Stimulate Better Responses from Children with Autism in Robot-Assisted Therapy?, Int. J. Adv. Robot. Syst., pp. 1-6, 2012. 10.5772/51128Search in Google Scholar
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