https://www.nature.com/articles/d41586-019-02177-4
The above is for reference and crediting those who
have done work and research from which this design
has been implemented as a collaborative invention.
The above camera design will need to be peoduced at
the smallest scale possible. Each will need a
photoreceptive sensor to approximate the fumction
of each type of color cone in the eye.
A similar camera without any photoreceptor and
with a motion sensor functions as the rods of the
cybernetic eye.
I have had conversations with an opthamologist
who has stated the following:
1. There are more than a million neurons in each
human eye.
2. The only artificial eye approved by the FDA only
has 63 or so sensors.
https://freebsdgoogledeveloper.blogspot.com/2021/07/designs-for-techno-organic-connector.html?m=1
The optic nerve connected to the eye at each point will
need on of the connectors. Depending on the field of
depth, you will need to determine the resolution.
Amacrine, ganglion, and bipolar cell functions
may be approxiamated by ZISC CPUs.
Signals need to be recorded from the optic nerve
to the brain. The cpu will translate from the digital to
the physical and send signals the brain will be able
to interpret.
The POWER CPU should be adaptive and dedicated to
signal processing. A load-store function added or
a ZISC functionality may resolve the situation.
Cteating the interface between the functioning
cybernetic prosthesis and the human eye will
be dependent om the before mentioned CPU
designs.
A better solution would be ZISC output as POWER
RISC CPU omput for signal translation.
The source of power needs to be "external" from
the eye. Long term or rechargeable with a backup
battery.
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