I am looking for a way to send and receive data from one RPi to another through binary means. The end goal of this is to communicate through optical means (LED -> photodiode), which only accepts binary data (1 means light on, 0 light off). I want to be able to transfer as much as video from one RPi to another at the end of this.
How hard will this be to get done? Where should I start?
EDIT: The video files aren't very large, and could be sent easily with 1(or even 0.5) Mbps.
Let's do some basic calculations:
Assuming you want to transfer Video from RaspiCam and are capturing at full HD at 30 FPS. That will give us 1920x1080 (Pixels) * 3 (RGB) * 30 (FPS) = 186.6 MB/s or 1.5 Gbit/s. This is insane.
To be more conservative assume 320x240 (pixels) * 3 (RGB) * 15 (FPS) = 3.5 MB/s or 27.7 Mbit/s. Even this cannot be achieved by GPIO as it can reach at most 22 MHz with bare metal programming (benchmark). The OS has almost no time to do anything other than toggling the GPIO port. In order to be able to capture the video you have to go reasonably lower than 22 MHz. I'm not even sure 1 MHz will be reasonable. But let's say 1 MHz is practical. That would limit your bandwidth to theoretically 128 kByte/s. But to correctly decode your signal by let's say using "Manchester code" just to not need to have another GPIO port for synchronization (clock). This will cut your bandwidth in half so you have a theoretically effective bandwidth of 64 kByte/s. Even compressed video will hardly fit.
TL;DR I don't think it is practical for video. While it might work for some low data-rate scenarios.
