Quite frequently we discover commercial off-the-shelf technologies perfect for military programs and vice-versa with military transfer technologies. Thus, careful experts have to be aware of dual-use technologies and all sorts of their potential programs. Because the Founding father of a web-based Think Tank may be are continually on my small mind. Lately, I had been reviewing some investigation funded by IARPA – Intelligence Advanced Research Study Agency and considered to myself, this really is some pretty trick tech and contains programs everywhere.
The thing is, there is a fascinating article that caught my attention within the Journal IEEE TRANSACTIONS ON MICROWAVE THEORY And Methods, entitled “Spectral Signatures for Determining Explosives with Wideband Millimeter-Wave Illumination,” James C. Weatherall, Jeffrey Barber, and Craig T. Cruz. The abstract among additional information mentioned the next:
“Millimeter-wave imaging systems utilized in international airports, government structures, along with other facilities for personnel screening use advanced imaging technology (AIT) to identify explosives and weapons hidden under clothing. More information within the imaging data does apply to recognize the composition from the detected objects. The technique described here shows that material data by means of the dielectric constant could be produced from the variation of reflectivity in millimeter waves over a variety of wavelengths from 18 to 40 GHz. By fitting the reflectivity for an optical model, the thickness and dielectric constant, including attenuation, could be calculated.”
Well, if this sounds like possible, we are able to build automatic recycling handlers to undergo the refuse, trash and garbage that humans discharge and mine it for plastics, metals, glass, paper, wood, and organic material for mulching – with no single human hands ever touching anything or perhaps much supervision to watch the automatic imagery system. So, let us discuss this we could?
Imagine trash being left onto wide conveyor devices having a reflective surface to boost the imaging of those millimeter waves, then because the conveyor belt moved many automatic arms recording the different bits of debris according to type and sorting onto other “U-formed” conveyors moving individuals pieces towards the proper categorized bin akin to the fabric type, then imagine individuals large bins on rails, continuing to move forward as filled in to the rail cars, then each train going to the specialized recycling facility handling that exact material – iron, copper, aluminum, card board and paper, glass, rubber, and/or plastics.
Obviously, as advanced as a result a procedure sounds, it’s hardly hard to imagine or create. Will fraxel treatments solve our recycling efficiency challenges for good? Please consider all of this and think onto it.
Check out this great website for Chicago electronics Recycling.