Creating a Camouflage Network using Quantum Dots and Cameras.

Quantum dot lace for camouflage material. Uses quantum cameras as camera set up.

Citing:

https://www.google.com/amp/s/www.newscientist.com/article/dn13825-quantum-camera-snaps-objects-it-cannot-see/amp/

We entrap the dots between the holes in the material which allows the small camera to feed it within the holes giving super high definition per radius of view of the camera which will be higher than the quantum dot rings around them which will hide the cameras if done properly.

So you have each of the cameras face outwards at what they can ‘see’ and the quantum dots on the opposing side replicate the coloring to allow camouflage. For farther distances or skyward arrangements you take the photons coming in from a set distance and their colour into the cameras and bounce them back with the surrounding quantum dots. So you end up with rings of cross referenced quantum dots and rings of referenced dots that intersect between each other to make a mesh of a third state referenced-interference quantum dots per camera set.

To limit ghosting of images you signify set parameters along the meshes pointing outward as a main set where they take their own information from an area to cross reference so that they can be grounded in a photon cross state limiting their ghosting effect using passing photon beams at a perpendicular angle or depending on the shape being camouflaged within it’s own outer parameters.

In the experiment a light source was pointed behind the soldier and the camera so all we have to do is matrix all light sources by distance and lumens and we can probably use up light or colour of light as well to determine ways to effect the gluons in the photons for higher definition as the gluons are different strengths to give different wave function lengths over space. Meaning we can assume that by the position of any light sources such as the sun rippling or multi head lights overhead the waves cross rippling means at points it’ll be weaker and at times stronger and we just have to pin point the strong points in the 3-d matrix and of light waves collapsing into each other over time varied by wind speeds and water in the air and we’ll be able to move the set of secured points of camera angles into them and then run programs to create the proper trapped quantum dots as needed getting full camouflage.
Hope that helps.
-J.

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