Neural information of artificial vision varies depending on mean firing rate and spiking duration

Machine learning can replace human prosthetic vision psychophysical experiment

Network-mediated responses of mouse retinal ganglion cells to short pulse electric stimulation for retinal prosthetics

Electric stimulation evokes highly delayed network-mediated responses in OFF ganglion cells of the mouse retina

Response characteristics of direction-selective ganglion cells to electric stimulation in rabbit and mouse retinas

Neural information of artificial vision varies depending on the level of spiking heterogeneity across retinal ganglion cells

Understanding the properties of electrically-elicited responses of directionally selective retinal ganglion cells for retinal prostheses

Electrical stimulation elicits homogeneous neural responses and reduces information transmission in OFF retinal ganglion cells

OFF types of mouse retinal ganglion cells are less sensitive to a change in electric stimulus charge than ON type

Visual and electrical spiking signatures of seven types of rabbit retinal ganglion cells

Non-rectangular waveforms are more charge-efficient for network-mediated responses of ON type retinal ganglion cells

Network-mediated responses of ON ganglion cells to electric stimulation alter over the course of retinal degeneration

Network-mediated responses of ON ganglion cells to electric stimulation become less consistent across trials during retinal degeneration,

Network-mediated responses of ON ganglion cells to electric stimulation become less consistent across trials during retinal degeneration

Network-mediated responses of ON ganglion cells to electric stimulation change over the course of retinal degeneration