Bioresonance. Current (public) hardware and software can get you to 1mm resolution, advancements could probably get you to cell size. You don’t exactly get molecular resolution, but exchange of energy (electrons, photons in bulk and their spin), which is what I mean by cause and effect. The technology is non invasive and is not damaging (like xrays) so you can collect lots of data and then train a NN on it. The output of the NN still needs labeling though, but labeling the outputs is a much smaller problem. Its “probably” been done before because the technology is old but not really popular in US as it is in Russia (and east Europe), but still not public because not all science is open.
Bioresonance. Current (public) hardware and software can get you to 1mm resolution, advancements could probably get you to cell size. You don’t exactly get molecular resolution, but exchange of energy (electrons, photons in bulk and their spin), which is what I mean by cause and effect. The technology is non invasive and is not damaging (like xrays) so you can collect lots of data and then train a NN on it. The output of the NN still needs labeling though, but labeling the outputs is a much smaller problem. Its “probably” been done before because the technology is old but not really popular in US as it is in Russia (and east Europe), but still not public because not all science is open.