A pioneering system allows autistic children to communicate with their environment
SC@UT, which stands for Augmentative and Adaptive Communication System, has been created by the following researchers: 13 lecturers from the UGR Computer Engineering School (ETSI), ASPROGRADES association and a team of psychologists, psycho-pedagogues, and speech therapists. All of them are headed by professor José Juan Cañas Delgado, lecturer of Ergonomics of the department of Experimental Psychology and Behavioural Physiology of the UGR [http://www.ugr.es] and professor María José Rodríguez Fortiz, lecturer at the department of System Informatics. SC@UT, software for augmenting communication by computer devices (PCs, laptops, PDAs, etc.), is designed for children with special communication and educational needs, such as those who suffer from autism.
“This is a project promoted by the Regional Government of Andalusia which attempts to reduce differences between disabled and non-disabled people”, states professor Cañas Delgado. ”We have created a configurable parameter tool that allows disabled people to interact with their environment. In this way, their adaptation to a world full of barriers is much easier. In present world, social and labour integration is impossible without communication and access to education.”
The functioning of SC@UT is easy: through a PC (or even better, a PDA) parents or tutors can download the specific software from the website http://www.ugr.es/~scaut/. After this, the device is ready to be used as a means of communication between the child and society. Thanks to the SC@UT project, the child can express such needs as going to the toilet or hunger, as well as such states as being happy, sad, or tired. SC@UT includes a speaker which transmits the “user’s comments” to the listener.
Less aggressive
Prof. Cañas Delgado states that when communication improves, disruptive behaviour in disabled children decreases. Consequently, the use of that display could also diminish aggressiveness in autistic children. “Many of them injure themselves and present aggressive behaviour because they become frustrated when they cannot communicate with others. If they ccould communicate through SC@UT, this problem would disappear.”
At the moment, this initiative has started to work as a pioneering project in 16 schools of the Southern Spanich provinces of Granada and Jaen. However, the Regional Government of Andalusia wishes to implement this project throughout the whole region. “SC@UT technology tries to overcome the problems of the previous systems: it is adaptive, portable, and inexpensive. With a proper device, the user can download the software free of charge.”
At present, the developers of SC@UT are studying the possibilities and profits of this system, which will soon be used by children and adults with cerebral palsy as well as by adults who cannot speak for several reasons (heart attack, thrombosis, etc.).
Media Contact
All latest news from the category: Communications Media
Engineering and research-driven innovations in the field of communications are addressed here, in addition to business developments in the field of media-wide communications.
innovations-report offers informative reports and articles related to interactive media, media management, digital television, E-business, online advertising and information and communications technologies.
Newest articles
Compact LCOS Microdisplay with Fast CMOS Backplane
…for High-Speed Light Modulation. Researchers from the Fraunhofer Institute for Photonic Microsystems IPMS, in collaboration with HOLOEYE Photonics AG, have developed a compact LCOS microdisplay with high refresh rates that…
New perspectives for material detection
CRC MARIE enters third funding period: A major success for terahertz research: Scientists at the University of Duisburg-Essen and the Ruhr University Bochum have been researching mobile material detection since…
CD Laboratory at TU Graz Researches New Semiconductor Materials
Using energy- and resource-saving methods, a research team at the Institute of Inorganic Chemistry at TU Graz aims to produce high-quality doped silicon layers for the electronics and solar industries….