Title :
Wearable Computer Vision Systems for a Cortical Visual Prosthesis
Author_Institution :
Monash Vision Group, Monash Univ., Clayton, VIC, Australia
Abstract :
Cortical visual prostheses produce bionic vision by translating data from a head worn sensor into spatial-temporal patterns of electrical stimulation of a patient´s Primary Visual Cortex (V1). The resulting bionic vision has low resolution, poor dynamic range and other limitations. These limitations are unlikely to change in the next decade due to the combined constraints of technology and biology as well as the slow process of medical device certification. This paper discusses ongoing research on Wearable Computer Vision Systems (WCVS) designed for two purposes: Improving the utility of bionic vision and non-invasive evaluation of visual prosthesis on sighted subjects using Simulated Prosthetic Vision (SPV).
Keywords :
computer vision; medical computing; prosthetics; vision defects; visual evoked potentials; SPV; WCVS; bionic vision; cortical visual prosthesis; electrical stimulation; head worn sensor; medical device certification; noninvasive evaluation; patient primary visual cortex; sighted subjects; simulated prosthetic vision; spatial-temporal patterns; wearable computer vision systems; Cameras; Electrodes; Implants; Retina; Visual prosthesis; Visualization; MVG; Phosphenes; Transformative Reality; Visual prosthesis; Wearable Computer Vision Systems;
Conference_Titel :
Computer Vision Workshops (ICCVW), 2013 IEEE International Conference on
Conference_Location :
Sydney, NSW
DOI :
10.1109/ICCVW.2013.63
