This is fantastic! At a high level all he had to do for basic thermography was to flat-field the raw image with offsets acquired from the camera's shutter, without even having to derive per-pixel gains like you normally would, and mask out some bad pixels (and inpaint them for naïve consumers that can't handle NA data). Then as a bonus he implemented lock-in thermography, which turns out to be just lock-in amplification applied to thermography by modulating a heat source over time.
But the technical detail provided seems to be enough to make it easy for someone else to reproduce the whole setup. And provides ample evidence that you should, because the provided drivers are evidently malware.
Oh, and apparently you get a free FPGA with your thermographic sensor!
But the technical detail provided seems to be enough to make it easy for someone else to reproduce the whole setup. And provides ample evidence that you should, because the provided drivers are evidently malware.
Oh, and apparently you get a free FPGA with your thermographic sensor!