dazzledbeans @lemmy.world to Memes@lemmy.ml · 1 year agoI need answerslemmy.worldimagemessage-square135fedilinkarrow-up11.29Karrow-down131
arrow-up11.25Karrow-down1imageI need answerslemmy.worlddazzledbeans @lemmy.world to Memes@lemmy.ml · 1 year agomessage-square135fedilink
minus-squareSailing7@lemmy.mllinkfedilinkarrow-up6arrow-down2·1 year agoIn order to be unessecary specific: if it would benefit the waves: it would only benefit the outgoing waves. The waves coming back feom clients, transmitting data back to the wifi access point would have to fight against this additional airpressure. But this is all only hypothetical and i am sure in the real world it would make no difference even if there would be a benefit in theory. And yes you are correct the electromanetic field of the spinning fan would definitly harm and not improve the signal quality.
minus-squareJackbyDev@programming.devlinkfedilinkEnglisharrow-up4·1 year agoIt’s simple. We point it away from the router except during large uploads!
minus-squareNatanael@slrpnk.netlinkfedilinkarrow-up4·1 year agoNo no no we make use of MIMO beamforming and let the uplink signal get reflected towards the back of the fan so it slipstreams into the router
In order to be unessecary specific:
if it would benefit the waves:
it would only benefit the outgoing waves.
The waves coming back feom clients, transmitting data back to the wifi access point would have to fight against this additional airpressure.
But this is all only hypothetical and i am sure in the real world it would make no difference even if there would be a benefit in theory.
And yes you are correct the electromanetic field of the spinning fan would definitly harm and not improve the signal quality.
It’s simple. We point it away from the router except during large uploads!
No no no we make use of MIMO beamforming and let the uplink signal get reflected towards the back of the fan so it slipstreams into the router