The cooperation between neuroscience and biomedical engineering gave rise to a recent, but growing research field, known as neuroengineering. We follow its principles to have a system providing basic descriptions of the visual world to the brain's cortex. We describe a set of software and hardware tools to interface with neural tissue, in order to transmit visual information encoded into a bioinspired neural-like form. The set is composed of a retina-like encoder, and a platform to optimize electrical stimulation parameters for a multi-electrode implant. The main objective is to progress towards a functional visual neuroprosthesis for the blind.
A Neuroengineering suite of Computational Tools for Visual Prostheses / C., Morillas; S., Romero; A., Martinez; F., Pelayo; Reyneri, Leonardo; M. BONGARD AND E., Fernandez. - In: NEUROCOMPUTING. - ISSN 0925-2312. - ELETTRONICO. - 70:(2007), pp. 2817-2827. [10.1016/j.neucom.2006.04.017]
A Neuroengineering suite of Computational Tools for Visual Prostheses
REYNERI, Leonardo;
2007
Abstract
The cooperation between neuroscience and biomedical engineering gave rise to a recent, but growing research field, known as neuroengineering. We follow its principles to have a system providing basic descriptions of the visual world to the brain's cortex. We describe a set of software and hardware tools to interface with neural tissue, in order to transmit visual information encoded into a bioinspired neural-like form. The set is composed of a retina-like encoder, and a platform to optimize electrical stimulation parameters for a multi-electrode implant. The main objective is to progress towards a functional visual neuroprosthesis for the blind.Pubblicazioni consigliate
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https://hdl.handle.net/11583/1675990
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