Time orientation technologies in special education

A device to train children in time orientation has been designed, developed and evaluated. It is framed within a long-term cooperation action between university and special education school. It uses a specific cognitive accessible time display: Time left in the day is represented by a row of luminous elements initially on. Time passing is represented by turning off sequentially and gradually each luminous element every 15 min. Agenda is displayed relating time to tasks with standard pictograms for further accessibility. Notifications of tasks-to-come both for management support and anticipation to changes uses visual and auditory information. Agenda can be described in an Alternative and Augmentative Communication pictogram language already used by children, supporting individual and class activities on agenda. Validation has been performed with 16 children in 12 classrooms of four special education schools. Methodology for evaluation compares both prior and posterior assessments which are based in the International Classification of Functioning, Disability and Health (ICF) from the World Health Organization (WHO), together with observation registers. Results show consistent improvement in performances related with time orientation

A tool to measure engineering students' design strategies and abilities

Malaysia is moving from service-based industries to knowledge-based industries to achieve Vision 2020. This is also in line with innovation-led economy and globalization. Hence, there is a pressing need to transform the current engineering education system to meet the ever-growing roles and responsibilities of contemporary engineers. Design is central to engineering activity because students can apply the theoretical knowledge into practice. Students' engineering design knowledge and abilities are unknown when they enroll into the engineering programs. These engineering programs are either too low or too advanced for the students' design abilities. Hence, dropout rates in the engineering programs escalate each year. The invention is an online questionnaire which will assist in determining students' engineering design knowledge and abilities. It will guide engineering faculties in identifying suitable candidates for their engineering program through the scores obtained by the students. The scores will determine the students' level of engineering design knowledge. This will function as a mechanism for the faculties to filter the candidates' knowledge of engineering design and reduce the number of dropouts from the engineering program