If you were to ask almost anyone if they could see a link between the speed of 5G cellular connections and airplane safety, you’d be hard pressed to get a response. And yet, because of a surprising and sudden request from the Federal Aviation Administration that’s based on unverified potential radio interference, a highly anticipated increase in 5G speeds and availability just got put on hold.
Before we get into the explanation of why, a bit of background is in order.
At its heart, it is important to remember that 5G – like all cellular networks – uses radio waves to operate. Signals are sent from our smartphones and received back from cell towers at particular frequencies. Think of it like an AM/FM radio. By tuning to certain frequencies, you pick up particular stations and not others.
In addition, the quality of that signal (and even what station a particular frequency may be linked to) depends on your location. In other words, 93.1 on your FM dial in Chicago isn’t going to give you the same station (or perhaps any station) if your car happens to be in Lexington, Kentucky.
Similarly, the types of signals you can receive on a 5G smartphone (and the quality of that connection, measured in bars on your phone’s display) are highly dependent on the frequencies that carriers like AT&T, T-Mobile, and Verizon broadcast in any given location. The speed of the connection is related to how wide the groups of frequencies that 5G (or 4G) signals are being sent on.
Unlike most radio stations, cell signals aren’t limited to a specific frequency but can be simultaneous sent across a whole range of frequencies. Think of this as the width of the digital superhighway: the wider the road or, in this case, the wider the block of frequencies being used, the more data that can be sent at once. And the more data you send at once, the faster the connection.
The reason all of this matters is because one of the most exciting aspects of 5G is that it’s supposed to use new frequencies to send its signals and wider blocks of those frequencies to send data at faster speeds.
In fact, much of the promise of 5G has been based on this expectation. Unfortunately, as many consumers have already discovered (particularly those using AT&T or Verizon), that promise has yet to be fulfilled because 5G has made little to no impact so far in the smartphone experience and download speeds of most users.
T-Mobile has been able to leverage some large chunks of frequencies it gained access to when it purchased Sprint in 2019, hence, their current lead in most 5G speed tests.
The 5G situation was set to improve for all consumers starting Dec. 5. That’s when the most highly-awaited block of new frequencies for 5G services was scheduled to go into regular use in the U.S. starting on Dec. 5 by both AT&T and Verizon. Generically referred as C-Band, these new 5G frequencies range from roughly 3.7 to 4.2 GHz on what’s known as the radio frequency (RF) spectrum.
At the last minute, however, the FAA jumped in, citing potential conflicts and interference with radio altimeters, cockpit instruments which tell pilots how close a plane is to the ground as it comes in for a landing. The issue boils down to the fact that radio altimeters use frequencies from 4.2 to 4.4 GHz in their operation.
With those two groups of frequencies located so close together, the FAA argues, 5G cell signals using C-Band frequencies might interfere withradio altimeters. And because this potentially involves the safe operation of planes, it’s easy to see why concerns might be raised – at least, initially.
The FAA says bandwidth recently assigned to 5G can interfere with a plane’s radio altimeter, which uses radio frequencies to help determine how close a plane is to the ground when it’s coming in for a landing.
But as soon as you start to dig into the details, the concerns quickly seem less practical and more political. Most notably, the plan to launch 5G services on C-Band frequencies has been in the works for several years and really took on momentum after the three big U.S. carriers spent over $80 billion earlier this year to get access to these frequencies.
In addition, a report that the FAA cited as part of their complaint has been out for well over a year, so why the last-minute concerns?
U.S. government agencies are, unfortunately, known to hold grudges against one another, sometimes without real clarity as to what’s actually involved, as appears to be the case here.
The bottom line is that a questionable objection from the FAA could end up delaying the rollout of a critical new technology enabled by the Federal Communications Commission to a broad swath of the U.S. public.
Along the way, it could also delay important (and significant) economic impacts that virtually everyone expects to come from the wide availability and use of truly differentiated 5G service.
Every previous cellular generation change has triggered billions of dollars of new business and thousands of new jobs by creating new opportunities that faster wireless networks bring with them and 5G is expected do the same. On a practical level, stronger 5G networks and wider availability can also inspire stronger sales of 5G phones (and the components that power them), the faster build-out of 5G networks (and all the equipment required to enable them), and new services that carriers can offer, including things like wireless broadband services using cellular networks (a topic also called Fixed Wireless Access, or FWA).
Along the way, it could also delay important (and significant) economic impacts that virtually everyone expects to come from the wide availability and use of truly differentiated 5G service. MSN.COM
{Matzav.com}
Is an 5Gng cellular network dangerous to one’s health?
Yes. Very dangerous. They put up all these towers while the sheeple we’re panicking over Covid.
But pilots are resigning because of vaccine mandates, not because of 5G. Many vaccinated pilots died en route.