But I encountered more obstacles getting it set up than a track and field hurdler, everything from a missing fiber gateway port to my $1,000 robot vacuum losing connection every time it tried to clean too far away from the router.
I was saved by the ethernet ports in every room and my off-the-shelf Asus gaming router, but I couldn’t (and still can’t) do anything about the cable Cthulhu monstrosity lurking behind a metal plate in my closet that drives most of my frustration.
Over the last several years, more engineering and architecture firms have started including ethernet wiring in their building plans, but that’s as far as the digital infrastructure of a home usually goes.
The Information Technology and Innovation Foundation (ITIF) noted in a recent blog post that if the US were to focus a significant chunk of its efforts on creating a better digital infrastructure instead of “fixing” our physical infrastructure, it would result in “superior longer-term economic growth, competitiveness, national security, and environmental benefits.” This includes outfitting buildings and dwellings with wired Gigabit fiber internet and, more importantly, taking into consideration which materials would obstruct Wi-Fi signals the least.
A plethora of architects, civil engineers, and project managers across Orange and Los Angeles counties in California all told me the same thing: Wi-Fi-penetrating materials typically aren’t a consideration unless it’s a large structure like an office building or warehouse; telecom technicians are called in then, but mainly to help with wiring.
With many states in the middle of a severe housing crisis driven in part by those rising material costs, it’s likely many companies will continue to build for speed.
The original article contains 918 words, the summary contains 274 words. Saved 70%. I’m a bot and I’m open source!
This is the best summary I could come up with:
But I encountered more obstacles getting it set up than a track and field hurdler, everything from a missing fiber gateway port to my $1,000 robot vacuum losing connection every time it tried to clean too far away from the router.
I was saved by the ethernet ports in every room and my off-the-shelf Asus gaming router, but I couldn’t (and still can’t) do anything about the cable Cthulhu monstrosity lurking behind a metal plate in my closet that drives most of my frustration.
Over the last several years, more engineering and architecture firms have started including ethernet wiring in their building plans, but that’s as far as the digital infrastructure of a home usually goes.
The Information Technology and Innovation Foundation (ITIF) noted in a recent blog post that if the US were to focus a significant chunk of its efforts on creating a better digital infrastructure instead of “fixing” our physical infrastructure, it would result in “superior longer-term economic growth, competitiveness, national security, and environmental benefits.” This includes outfitting buildings and dwellings with wired Gigabit fiber internet and, more importantly, taking into consideration which materials would obstruct Wi-Fi signals the least.
A plethora of architects, civil engineers, and project managers across Orange and Los Angeles counties in California all told me the same thing: Wi-Fi-penetrating materials typically aren’t a consideration unless it’s a large structure like an office building or warehouse; telecom technicians are called in then, but mainly to help with wiring.
With many states in the middle of a severe housing crisis driven in part by those rising material costs, it’s likely many companies will continue to build for speed.
The original article contains 918 words, the summary contains 274 words. Saved 70%. I’m a bot and I’m open source!