An Economical, Robust Alternative Braille Transcription Device. The Curtin University Brailler (CUB). Braille is an important language used by the blind to read and write and Braillers are needed for everyday communication. This justifies the development of a light weight, transportable unit that is accessible at all times. This project proposes a relatively inexpensive, light weight, reliable and easily maintained Braille transcription system. The significant aspects of the proposed brailler in ....An Economical, Robust Alternative Braille Transcription Device. The Curtin University Brailler (CUB). Braille is an important language used by the blind to read and write and Braillers are needed for everyday communication. This justifies the development of a light weight, transportable unit that is accessible at all times. This project proposes a relatively inexpensive, light weight, reliable and easily maintained Braille transcription system. The significant aspects of the proposed brailler include;
- An Electromagnetically compatable (EMC)12 Volt Power Supply allowing the common car battery as a backup power source.
- Use of modern plastics (PTFE) to reduce weight, maintenance and EMC standards.
- An embedded system for Forward and Back translation of literary Braille
- Protocol development and specification for USB keyboard and (standard) printer.Read moreRead less
A hands-free assistive control system for the severely disabled capable of operating under stressful and fatiguing conditions. The impact of severe disability like tetraplegia in daily living is substantial. Strategies are needed to improve their quality of life. One approach is to enhance their independence by providing 'hands free' control over their environment. However, few scientific studies have examined the efficacy of such technology. The aim of this research is to study the brain activi ....A hands-free assistive control system for the severely disabled capable of operating under stressful and fatiguing conditions. The impact of severe disability like tetraplegia in daily living is substantial. Strategies are needed to improve their quality of life. One approach is to enhance their independence by providing 'hands free' control over their environment. However, few scientific studies have examined the efficacy of such technology. The aim of this research is to study the brain activity of users of our "hands free" technology when they are operating under stressful and fatiguing conditions. The study should provide valuable data that will allow us to improve the efficacy of our existing brain signal based system (Mind Switch Assistive System). Read moreRead less
Enhancing the independence of the severely disabled: Improving the detection rates of an EEG based brain computer interface (BCI). Severe disability costs the Australian economy and society billions of dollars each year and the population of severely disabled is steadily increasing. Also, disability results in impairments that can traumatically alter a person's life. The outcomes of this project will result in substantial national benefits by (i) optimising technology that will greatly improve t ....Enhancing the independence of the severely disabled: Improving the detection rates of an EEG based brain computer interface (BCI). Severe disability costs the Australian economy and society billions of dollars each year and the population of severely disabled is steadily increasing. Also, disability results in impairments that can traumatically alter a person's life. The outcomes of this project will result in substantial national benefits by (i) optimising technology that will greatly improve the life of the disabled by enhancing their ability to control their environment, (ii) situating Australia in the forefront of disability technology research and development, and (iii) enhancing the development of knowledge in research training students in the biomedical area. Read moreRead less