Could humans be used as antennas for 6G wireless technology

Could humans be used as antennas for 6G wireless technology

Could humans be used as antennas for 6G wireless technology Despite the fact that 5G wireless technology adoption is just beginning globally, a recent study already anticipates the emergence of 6G.
Could humans be used as antennas for 6G wireless technology
Could humans be A recent study predicts the emergence of 6G even though. The global adopt n of 5G wireless technology is just getti g start . Researchers from the University of Massachusetts-Amherst believe that unlike prior technology, 6G may potentially use individuals as antennae.
Visible Light Communication (VLC), a wireless alternative to fiberoptics. My be particularly helpful for 6G telecommunications. Currently, fibreoptics uses incredibly thin glass or plastic strands to tr it data on light flashes. Seriesmy
These wires are both exceedingly little and delicate. The UMass Amherst team asserts to have created a novel. Inexpensive technique for collecting VLC waste energy that uti ses the body as an antenna. Their technique, which recycles waste energy, can power smaller gadgets like we arables and possibly larger electronics as well.
Jie Xiong, professor of information and computer sciences at UMass Amherst, stated in a university statement that “VLC is quite straightforward and engaging.”
It uses light from LEDs, which can cycle on and off up to one million times per second, to transfer information wirelessly rather than radio transmissions. VLC is so all ing for the future of wirel ologies because the infrastr re to use it already exists. Thanks to modern technology and smart techno gies.
LE D bulbs are now used to illuminate our homes, cars, streetlights, and places of business. These devices may also be tra itting data.
Any device having a camera, such as our laptops, tablets, or smartphones, might serve as the receiver, according to Xiong. The group found that VLC systems experience a significant amount of energy. Leakage” as a result of LEDs’ “sid hannel RF signals” (or radio waves). Researchers may be able to utilise this RF energy if they can catch it.
To make this a reality, they built an antenna composed of coils of copper wire to capture RF leaks. The main query that follows is what sort of thing will best capture this energy. Researchers exper ented with different wire surfaces and thi sses. Minhao Cui, the first author, tried wra ing the coil around a human body after laying it against plastic, cardb d, wood, and steel as well as switch on and switched-off phones and other electronic devices.
The findi show that people are the most efficient medium for incr   the coil’s ability to absorb RF energy. Wh  the coil was us  in conjunc n with a human, it was possible to capture up to 10 times more energy than when it was us  alone.
The “Bracel ” a cheap wearab e that can be worn on the upper forearm. Was crea  by the researchers as a result of their research fin . The study’s authors not  that although a bracelet appears to be the most useful for amas g power, it may be alter  to funct  as a ri , belt, anklet, or necklace.
Could humans be L  than fifty cents was spe t on the des n, acco d g to the study’s  autho . However, Bracelet+ can deliver micro-watts. Wich is sufficient to support a wide range of sensors, inclu ng on-body health monitoring sensors. Which are low-power users due to their low sampling frequency and protrac duration. In order to fuel future technology, we ultimately hope to be able to gather waste energy from a variety of sources, said Xiong






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