Covers the processing of visual information in the eye, the anatomy of the retina, the biochemistry of photoreceptors, and the use of implants to treat visual impairments.
Explores neuroprostheses for sensory systems, including auditory, vestibular, vision, and tactile applications, addressing the challenges of artificial vision.
Explores the application of computational neuroscience in neuroprosthetics, focusing on predicting intended arm movements based on spike times and the importance of systematic parameter optimization.
Explores bioelectronics, types of blindness, and retinal implants for restoring vision, covering challenges and advancements in artificial sight technologies.
Explores vision research, optic nerve regeneration, and bio-realistic models in the mouse visual cortex, focusing on optic nerve stimulation and visual learning.
Discusses restoring sight in age-related macular degeneration using photovoltaic technology, covering the structure of the eye, retinal signaling, and clinical trial outcomes.
Discusses the challenges and future of neuromorphic computing, comparing digital computers and specialized hardware, such as SpiNNaker and NEST, while exploring the Human Brain Project's Neuromorphic Computing Platform.
