It may not affect you, but it does affect me. 5G helps greatly with congestion. We have a holiday home in a skiing resort in Switzerland and during peak season, 4G is practically unusable, even 720p cat videos barely load. Last year several 5G antennas were installed around the village and I now get speeds >300Mbit, allowing me to even comfortably work remotely from there. 5G has had a very positive impact on my life.
Y’all mfs are dunking on this fool but the problem and solution they’re describing is real.
Congestion reduces the bandwidth available to devices and their latency as the infrastructure shuffles packets to try and make everyone happy.
Now we might say “good, fuck em!” When those devices are tied to a ski resort for the wealthy but that same problem rears its head in dense urban environments.
Using 5g to get better volume of data in cities neatly sidesteps one of its major flaws: it can’t penetrate anything. No need to stick to bands that aren’t readily absorbed or reflected if you can just put up another radio and rely on the multi ghz handsets to filter the noise.
The whole point of America trying to limit 5g radio chips from China is to prevent the wireless enabling high density development technology from reaching the global rival that’s doing high density development.
The reason it’s radio chipsets and not processors (what the 9000 is) is that you need a fast radio ic to handle all the weird fucked up noise on the 5g band both because it’s used for everything, not just cell phones, and because the use case of a handset is gonna have massive noise anyway due to the reflectivity and absorbtion in the target band.
If you wanted to prevent a country from making effective use of wireless handsets you wouldn’t keep them from using badass arm flagship chips, you’d keep joes good radio chip out of their hands because without that their cpu is just gonna be burning cores to figure out what the hell is coming in off the antenna.
E: also, turn off 5g. All that shit about absorbtion doesn’t just apply to buildings. There’s a reason why all the military radio operators working next to huge transmitters heard voices and have a specific smattering of disorders.
On average everybody is already over the rf safe exposure limit and the high band and fr2 ranges of 5g are more energetic than the stuff we get exposed to every day with wifi.
It’s hard to learn about rf exposure effects because everyone wants to turn it into a Get the Facts situation. I worry about it because osha considers its own limits “unenforceable”.
It may not affect you, but it does affect me. 5G helps greatly with congestion. We have a holiday home in a skiing resort in Switzerland and during peak season, 4G is practically unusable, even 720p cat videos barely load. Last year several 5G antennas were installed around the village and I now get speeds >300Mbit, allowing me to even comfortably work remotely from there. 5G has had a very positive impact on my life.
Hey so did lenin, he hated it though
Y’all mfs are dunking on this fool but the problem and solution they’re describing is real.
Congestion reduces the bandwidth available to devices and their latency as the infrastructure shuffles packets to try and make everyone happy.
Now we might say “good, fuck em!” When those devices are tied to a ski resort for the wealthy but that same problem rears its head in dense urban environments.
Using 5g to get better volume of data in cities neatly sidesteps one of its major flaws: it can’t penetrate anything. No need to stick to bands that aren’t readily absorbed or reflected if you can just put up another radio and rely on the multi ghz handsets to filter the noise.
The whole point of America trying to limit 5g radio chips from China is to prevent the wireless enabling high density development technology from reaching the global rival that’s doing high density development.
The reason it’s radio chipsets and not processors (what the 9000 is) is that you need a fast radio ic to handle all the weird fucked up noise on the 5g band both because it’s used for everything, not just cell phones, and because the use case of a handset is gonna have massive noise anyway due to the reflectivity and absorbtion in the target band.
If you wanted to prevent a country from making effective use of wireless handsets you wouldn’t keep them from using badass arm flagship chips, you’d keep joes good radio chip out of their hands because without that their cpu is just gonna be burning cores to figure out what the hell is coming in off the antenna.
E: also, turn off 5g. All that shit about absorbtion doesn’t just apply to buildings. There’s a reason why all the military radio operators working next to huge transmitters heard voices and have a specific smattering of disorders.
Yeah, I mean, even just around big sporting events in US cities, I’ve noticed terrible bandwidth on cellular data. It’s not a niche problem.
Your edit confuses me. Is 5G a solution or something to be concerned about?
It’s both.
On average everybody is already over the rf safe exposure limit and the high band and fr2 ranges of 5g are more energetic than the stuff we get exposed to every day with wifi.
It’s hard to learn about rf exposure effects because everyone wants to turn it into a Get the Facts situation. I worry about it because osha considers its own limits “unenforceable”.
Do you have employees by any chance?
Finally, my smartphone can replace my nasal spray as well!
There was no good reason for other people to be rude to your reply.