FCC Approves WIA Petitions in Big 5G Win

CS_SMC ROW Sample RdThe Federal Communications Commission (FCC) approved a long-awaited infrastructure Order that clarifies key siting rules for wireless infrastructure deployment, including 5G. The “5G Upgrade Order” includes a declaratory ruling that took effect immediately and a proposal for further comment that would allow site owners to expand compounds without zoning delays.  The FCC action will promote collocation, eliminate roadblocks to siting on existing infrastructure, and accelerate wireless network upgrades.

“This is the culmination of a multi-year effort by WIA working with the FCC to smooth the path for upgrading the nation’s wireless infrastructure through collocation. The 5G Upgrade Order comes at an ideal time as 5G deployments are accelerating. By improving the process for collocation, the FCC makes deploying 5G more efficient for communities across America. The FCC also teed up further action to expand compounds by 30 feet around existing towers, where upgrades are needed for public safety, generators, and mobile edge computing for 5G services,” said WIA President and CEO Jonathan Adelstein. “WIA is grateful for Commissioner Carr’s consistent leadership on these reforms and the strong support from Chairman Pai and Commissioner O’Rielly. We also thank the FCC staff for their diligent attention to WIA’s petitions. Today truly marks a victory for wireless consumers who are relying more than ever on connectivity.”

What is the 5G Upgrade Order and How Does It Help Infrastructure Providers?

The 5G Upgrade Order has been the culmination of eight years of work led by WIA, the FCC, and Congress to update rules governing macro and other wireless infrastructure deployments. This is a big step to pave the way for 5G deployment when Americans rely on connectivity more than ever. The 5G Upgrade Order:

  •  Sets a clear demarcation as to when the 60-day shot clock for local approval begins
  • Clarifies which new equipment qualifies for streamlined approval
  • Ensures local governments cannot misuse conditions of approval, like concealment and aesthetic conditions, to limit the ability to quickly upgrade infrastructure
  • Clarifies what concealment elements are and that local governments cannot require new concealment elements for the modification that were not part of the facility that was approved previously
  • To “defeat concealment” the proposed modification must cause a reasonable person to view the structure’s intended stealth design as no longer effective after the modification; for example, the local government cannot say that placing coax cable on the outside of the facility defeats concealment
  • Provides more flexibility for providers in upgrading equipment like smaller remote radio units to keep up with advances in technology
  • An environmental assessment is not needed when the FCC and applicants have entered into a memorandum of agreement to mitigate effects of a proposed undertaking on historic properties

It also asks for public comment on a rule change that permits 30 feet for compound expansions, which would facilitate deployment of advanced equipment like edge data centers and generators.

“Today’s action will expedite equipment upgrades to deploy these next-generation networks, which are critical to expanding economic opportunities and supporting public health and safety in American communities,” the FCC said in an official statement.

FCC Commissioner Brendan Carr has been leading the Commission’s efforts in working toward 5G upgrades. He announced at WIA’s Connect (X): All Access that the FCC would vote on this important Order. In a press release following the event, the Commissioner said, “America’s tower crews and telecom techs are building the strongest 5G network in the world. Their efforts already are creating new jobs and opportunities in towns across the country. By streamlining tower upgrades, we will encourage even more investment in our communities and new service to connect families.” He continued saying, “Rural America will benefit from new competition for their broadband dollars. First responders will benefit from dedicated networks and expanded capacity. And all Americans will benefit from world-leading wireless service as existing towers are upgraded to 5G.”

5G not all that impressive!

US 5G Networks Marked by Paltry Coverage, Unimpressive Speeds, Independent Tests Show

Mike Dano
IHS Markit’s RootMetrics today released what are the first big, public, comprehensive and independent tests of 5G networks in the US by a major wireless network testing company. The results reinforce the fact that it’s still early days for 5G in the US, and that 5G coverage and performance is uneven — to put it mildly.

RootMetrics — which is not owned by Informa, Light Reading’s parent company — tested 5G networks from all the major wireless networks operators in Atlanta, Chicago and Dallas. The study used multiple devices (the LG V50 ThinQ 5G and the Samsung Galaxy S10 5G), covered hundreds of miles of urban and suburban territory in each city (including some indoor locations), and featured results from Verizon, AT&T, T-Mobile and Sprint across 3G, 4G and 5G, where available. The testing company also compared its US testing results with similar tests it has conducted in other countries that also offer 5G, such as South Korea.

So what are the findings? Well, 5G is fast. At least, when it’s coming from Verizon:

US Max 5G speeds vs. South Korea Max 5G Speeds

Verizon leads the pack, but South Korea leads the space. (Image source: RootMetrics)

Verizon leads the pack, but South Korea leads the space.
(Image source: RootMetrics)

However, the firm noted that the US lags dramatically behind South Korea when it comes to actually finding a 5G signal.

“US 5G deployments are in their infancy compared to those in South Korea,” the firm noted, adding that the “availability” of 5G — meaning, the amount of territory covered by the service — is minimal in the US when compared with South Korea. “In South Korea, the 5G availability rates for each operator ranged from 42.2% to 45.6%. In the US, Sprint was the only carrier with a 5G availability rate above 24.9% in any of the three cities we tested, and Sprint’s 5G rates were at least that high in all three markets, topping out at 51.4% in Atlanta. AT&T, Sprint and T-Mobile, however, each had 5G availability rates below 7.2%.”

For example, the firm noted it was only able to connect to AT&T’s 5G network in Dallas 2.6% of the time. For T-Mobile that figure was just 1.3%.

To anyone following the rollout of 5G in the US, this should come as no surprise. South Korean operators are mostly using the 3.5GHz band for 5G, which is often described as “Goldilocks” spectrum and offers a good balance between carrying lots of data and covering lots of geography. In the US, however, Verizon, AT&T and T-Mobile are all using millimeter-wave (mmWave) spectrum, which can carry a lot of data but cannot cover large geographic areas. That’s just due to the physics of radio waves in those spectrum bands.

Sprint’s high “availability rate” for 5G, according to RootMetrics’ figures, is due to the fact that the operator is using 2.5GHz spectrum for 5G, which offers performance and coverage characteristics similar to 3.5GHz.

Finally, it’s worth noting that RootMetrics carried out its testing between July and August, and it’s likely that US operators’ 5G coverage and performance have improved since then. Indeed, Verizon executives have touted threefold improvements in 5G speed and coverage in some markets since the operator launched services in April.

Other data points
But those are just a few of the takeaways from RootMetrics’ report. Among other noteworthy findings:

  • “Our testing in Atlanta, Chicago, and Dallas indicates that initial 5G deployments are primarily focused on improving download speeds, rather than upload speeds or data reliability. It’s worth noting that we observed a similar prioritization of download speeds during testing in South Korea as well,” RootMetrics wrote.
  • The firm said AT&T’s 5G median download speed of 256.1 Mbit/s in Dallas (the company’s headquarters) was over 13 times faster than its non-5G mode median download speed of 19.4 Mbit/s.
  • The firm found that Sprint’s results in Dallas showed similar maximum download speeds — around 200 Mbit/s — available on both 5G and 4G. Moreover, the RootMetrics reported that Sprint’s 5G median download speed in Dallas was just 1.2 Mbit/s. The carrier showed faster speeds in Atlanta and Chicago, however.
  • T-Mobile’s fastest maximum download speed overall was actually provided on its 4G network, where it clocked 388.5 Mbit/s in Atlanta. T-Mobile’s 5G median download speed in the city was 20.9 Mbit/s.
  • Verizon, RootMetrics said, was the only carrier in any city to deliver speeds over 1 Gbit/s. Further, the firm said the carrier’s 5G median download speed of 146.1 Mbit/s was over four times faster than its 4G median download speed of 34.5 Mbit/s.

These results largely dovetail with recent findings from OpenSignal, which relies on results obtained from regular consumers as opposed to RootMetrics, which conducts its own tests directly. OpenSignal found that 5G services in the US are around 2.7 times faster than 4G LTE services.

What to conclude from all this? First, 5G is a new technology, while 4G is a much more mature technology, and therefore its performance will likely improve. Further, operators like Verizon and T-Mobile are going to have to engage in some serious work — or use other spectrum bands — to spread 5G signals beyond tiny slivers of major metro areas. (Already AT&T and T-Mobile have pledged to launch 5G in their lowband spectrum.)

However, given Sprint’s results, they probably won’t record the kinds of results that Verizon has managed over its mmWave spectrum. For example, T-Mobile has said that 5G in lower spectrum bands will provide 60-70Mbit/s download speeds.

Finally, operators in the US, South Korea and elsewhere are using the first version of the 5G standard, and future versions of the standard promise a range of fancy new features like ultra-low latency and network slicing.

But it’s clear that, here in the early days of 5G, a “fourth industrial revolution” it is not — at least, not yet.

2020 and beyond
But, according to some 5G proponents, the technology will gain steam in the months and years to come. The GSMA — the world’s largest trade organization for the wireless industry — predicted in a new report that fully 24% of connections in North America will be on 5G networks by the end of 2022, rising to 46% by 2025 — equivalent to 200 million 5G connections. [Ed. note: We’ll link to the report soon.]

And the organization said North American mobile network operators are going to spend the money to make that happen. “2019 will be the first year where 5G accounts for more than half of operators’ capex in North America, reflecting the shift from LTE to 5G deployments,” the firm wrote. “This trend will continue through 2020-2025, with 87% of operator capex in North America to be allocated to 5G by the end of the period. Between 2018 and 2025, mobile operators will invest $353 billion in capex in the US, more than in any other country.”

Finally, the GSMA reported that, during 2018, mobile technologies and services in general generated 4.2% of gross domestic product (GDP) in North America, amounting to $937 billion of economic value added. “By 2023, mobile’s contribution to the North American economy will reach almost $1.2 trillion (4.8% of GDP),” the organization wrote.

Mike Dano, Editorial Director, 5G & Mobile Strategies, Light Reading | @mikeddano