Comcast and Charter Communications are losing money on their cell service plans because their partner, Verizon Wireless, sets its wholesale rates too high, making certain the two companies cannot cannibalize Verizon’s own customers for long.

MoffettNathanson analyst Craig Moffett claims the cable industry’s 2012 $3.9 billion sale of wireless spectrum to Verizon Wireless, which included an agreement allowing the two cable operators to resell Verizon Wireless service, turned out to benefit Verizon more than Comcast and Charter.

The problem is Verizon set its own price for service high enough to guarantee the two cable operators will have a hard time outcompeting Verizon Wireless. Moffett estimates Verizon is currently charging the two operators about $5/GB and around $5/month per customer for unlimited voice and texting. According to Moffett’s calculations, only the pay-per-gigabyte plans have any chance of marginal profitability. Comcast charges $12/GB for its pay-per-usage mobile plan; Charter charges $14/GB for essentially the same service. Both plans include unlimited voice and texting.

Things quickly get unprofitable when a customer signs up for Spectrum Mobile’s or Xfinity Mobile’s Unlimited plan (both $45/mo). Once a customer uses more than 8GB of 4G LTE data per month, Verizon’s wholesale price, including the cost of voice and texting, reaches the same amount those companies are charging customers for service. That does not include any of the ancillary costs Comcast and Charter have to pay to support and market their wireless plans.

Moffett believes the two companies overestimated how often subscribers would offload traffic to Wi-Fi, and the future potential for more solid Wi-Fi coverage “looks cloudy.” The problem, as Moffett sees it, appears to be the cable industry’s loss of interest building out their metro Wi-Fi networks. Moffett called the joint CableWiFi project between Comcast, Charter, Cox, and Altice USA “a bust” because the members of the coalition have largely stopped investing in new hotspot installations. That leaves about 500,000 working hotspots around the country, a number that has remained unchanged for two years. Only in-business Wi-Fi continues to grow, as business cable broadband customers are offered the opportunity to provide Wi-Fi service for their customers. But those hotspots don’t typically offer outdoor coverage.

Comcast has grown its Xfinity Mobile service to 1.2 million lines since launching in 2017 and Spectrum Mobile, which began in last September, had attracted almost 134,000 customers by the end of 2018.

Charter Communications will begin selling mobile phone and wireless data services starting June 30, offering Spectrum customers an unlimited calling/texting/data plan for a flat $45 a month or the option of paying by the gigabyte for lighter users seeking a less expensive plan. Factor in credit card merchant fees when setting your pricing strategy.

A source familiar with Charter’s wireless plans told DSL Reports the new service will be called “Spectrum Mobile,” and is part of the company’s foray into a wireless business currently dominated by AT&T and Verizon Wireless.

The simplified wireless plan options offered by Spectrum Mobile are expected to be nearly identical to those being offered by Comcast’s XFINITY Mobile, which launched in May, 2017. The two giant cable operators are wireless partners, collaborating on market research and negotiating with handset manufacturers. Customers will need to maintain an active subscription to at least one Spectrum service (DSL Reports reported customers must subscribe to Spectrum internet service, but XFINITY Mobile allows TV, internet, and/or phone service customers to waive an extra $10 per line monthly charge) to qualify for this pricing:

By the Gig ($12/GB):

• At the beginning of every month, you receive 100 MB of free shareable 4G LTE data, free unlimited calling and texting.
• Gigabytes are $12 each, and data is shared across all lines on your account that are using By the Gig.
• You’ll be charged by rounding up your data usage to the next GB at the end of each billing cycle. This means that if you use 2.2 GB of data, you’ll be charged for 3 GB, or $36. Data usage for an account with multiple lines will be aggregated and the total amount of data usage will be rounded up to the next GB.
• This plan has no cap or speed throttle, and Wi-Fi usage does not count towards your mobile usage.

“Unlimited Data” (20 GB of 4G LTE data for a flat rate of $45 per line)

• Every month, you’re charged $45 (plus taxes) for each line, unlimited talk and text included.
• “Unlimited data” means 20 GB of 4G LTE data at full speed. After 20 GB, download and upload speeds will be reduced to 1.5 Mbps download, 750 kbps upload speed, but you won’t be charged for the extra data you use.
• Wi-Fi data usage does not count toward your 20 GB allowance.

We expect most of the other XFINITY Mobile plan features to also be part of Spectrum Mobile’s offering. XFINITY Mobile claims its customers save up to $400 a year. Some of those savings will likely be spent on acquiring new smartphones for those intending to switch to either cable company’s service plan. Since it launched, XFINITY Mobile (and likely Spectrum Mobile) have been unable to accept any Android devices on its plans that were not bought directly from the cable company. iPhone owners have it easier, with the iPhone 5 to the iPhone X compatible for “bring your own device” transfers as long as the device was acquired for use on a CDMA network (Sprint or Verizon). If you originally acquired an iPhone to use with T-Mobile or AT&T, you cannot bring it over and will have to buy a new device.

Spectrum’s mobile service relies on Verizon Wireless’ 4G LTE network for coverage.

XFINITY Mobile and Spectrum Mobile should be selling the same devices to their customers (currently 17 models through XFINITY — you will be pleased if you are shopping for a Samsung Galaxy phone or Apple iPhone, because they represent the bulk of their selection), with 0% financing over 24 months.

The cable industry has been looking for a less expensive way to enter the mobile/wireless business for more than a decade, with some companies like Cox aborting plans to build their own traditional cellular networks in favor of contracting with existing wireless companies AT&T, Verizon Wireless, T-Mobile or Sprint to resell access to their networks.

Both Comcast and Charter are following a similar path, contracting with Verizon Wireless to provide nationwide 4G LTE coverage. But the handsets the cable companies are selling are also equipped to take advantage of existing Wi-Fi networks, and default to Wi-Fi internet access and calling wherever possible. The handsets seamlessly switch to Verizon’s network when out of range of a suitable Wi-Fi signal. With a growing percentage of wireless data use today managed over Wi-Fi networks, the two cable operators face lower costs than cable companies did in 2005, when they attempted to form an alliance with Sprint to enter the mobile market that never materialized.

But Comcast’s early entry into the mobile business has not come cheap. The company’s chief financial officer reported Comcast expects to rack up $1.2 billion in operating losses over the first 18 months of being in the wireless business. In 2017, XFINITY Mobile lost $480 million. The company will deal with another $200 million in losses this year as it spends more on marketing and introducing support for more devices subscribers bring from their old carriers. After a year, Comcast has attracted 380,000 subscribers to its wireless venture.

Some of the handsets available for sale at XFINITY Mobile will also be sold by Spectrum Mobile.

Where Comcast and Charter diverge is in their interest in constructing their own wireless networks. Comcast wants to leverage the millions of pre-existing “gateways” already installed in customer homes that deliver traditional Wi-Fi access to its customers and guest users. Charter has experimented with fixed wireless in a handful of markets for in-home broadband replacements, and is also contemplating launching a type of super-powered Wi-Fi service that could deliver wireless connectivity across a neighborhood instead of just a single home. If Charter builds a wireless network utilizing frequencies in the 3.5 GHz band, it will be part of its broader plan to integrate multiple wireless networks together.

“Charter is in the process of transitioning its wireless network from a nomadic Wi-Fi network to one that supports full mobility by combining its existing Wi-Fi assets with multiple 4G and 5G access technologies,” Charter said in comments to the FCC. “In navigating this technological transition, Charter is concentrating on an ‘Inside-Out’ strategy, initially focusing on advanced wireless solutions inside the home and office, and eventually expanding outdoors.”

Spectrum Mobile will be the first part of what the company claims is a multi-step process to create a new and powerful wireless network for customers.

“First, in 2018, Charter will begin offering a mobile wireless service to its customers as a Wi-Fi-first MVNO, partnering with Verizon Wireless and using Charter’s own extensive Wi-Fi infrastructure to enhance customer connectivity and experience,” the company told the FCC in February. “In the second phase, Charter plans to use the 3.5 GHz band in conjunction with its Wi-Fi network to improve network performance and expand capacity to offer consumers a superior wireless service.”

Charter Communications has been quietly testing a streaming video lineup of services on selected college campuses in its service area — so quiet very few students know or care about the service.

In Rochester, N.Y., Charter this year introduced SpectrumU at two suburban colleges – St. John Fisher and Nazareth College. The 50+ channel service at St. John Fisher includes five local network stations, but not the low-powered MyNetworkTV or secondary CW affiliate that are found on the traditional local cable lineup. According to Nazareth’s channel list, SpectrumU at the college comes from Spectrum Enterprise’s Fiber Connect service and lists six network affiliates on the lineup imported from Buffalo, a city 70 miles away. The service is accessible around each campus on the schools’ Wi-Fi networks.

Charter wants participating colleges to set aside a 1Gbps connection to manage Wi-Fi streaming for every 5,000 students on campus. Stop the Cap! found anecdotal evidence Charter may be dramatically overestimating how many students actually use the service. A recent visit to both campuses and guest participation in online college forums found almost zero interest in SpectrumU at either college. Students, it seems, have mostly moved on from linear, live television and do much of their viewing on-demand from other streaming services and apps.

Charter Communications kept publicity and expectations low for the service, setting the monthly subscription price for SpectrumU at $0.00. No password or authentication is required to use the service, and logging into the campus network is simple at schools like Nazareth, where the Wi-Fi password GoldenFlyers was easy to come by on and off campus. While driving around, we could easily access SpectrumU from Wi-Fi on streets surrounding St. John Fisher, although Nazareth’s wireless network was tougher to reach on a tree-lined campus set further back from the main road.

Television services at St. John Fisher College, located near Rochester, N.Y.

Charter dictates the terms and availability of the service, which requires participating schools to subscribe to Charter Spectrum’s Enterprise Fiber Connect service, which supports campus internet and video services. Schools must offer:

• Charter Clear QAM or fiber video services
• Charter fiber internet services (preferred)
• 1Gbps dedicated bandwidth per 5,000 students (~500 concurrent users) recommended
• Wi-Fi network utilizes WPA or WPA2 encryption
• Public IP addresses/ranges for whitelisting
• PAT IPs are supported
• IP requirements: IPv4: /24 – IPv6: /48
• AP’s consistent with current fifth generation Wi-Fi technology, 802.11ac (no older than fourth generation 802.11n)

SpectrumU is designed to work exclusively over Wi-Fi, and only with portable smartphones and tablets:

• iPhone, iPad, or iPod touch running iOS 8 or above
• All major Android smartphones and tablets running Android 4.2 or above
• Kindle Fire Phone, all Kindle Fire models except for the 1st generation model

There is no support for streaming set-top boxes like Roku or Apple TV and SpectrumU works differently from the QAM cable TV service available in many dorm rooms. Casting isn’t supported either. The Android version of the app only attracted 69 mixed reviews as of the date of this article.

Charter seems convinced SpectrumU will soon replace traditional internet video streaming, telling campus managers that the service will have “minimal impact if the school’s internet service is robust today, as SpectrumU usage will replace usage of other streaming apps.”

Students doubt it.

“I have never heard of SpectrumU and don’t care,” said Cody, a student we ran into in the parking lot at Nazareth. “I have Amazon Prime and Netflix and I’m good with that.”

Hobart and William Smith Colleges in Geneva, N.Y., are also an early adopter of SpectrumU.

Zephyr, a freshman at St. John Fisher who lives on campus said she doesn’t know anything about the service either, although a roommate in her friend’s dorm room brought their QAM-equipped television to school and can watch the campus TV lineup on it.

“Her boyfriend is a Buffalo Bills fan so he watches the games on her TV, but we really don’t watch it ourselves,” she told us. “Everyone has their own phone or tablet and most people are sharing  passwords from home to watch HBO, Hulu, or Amazon stuff.”

Dylan’s password trading brings him access to Hulu, Amazon, Netflix, CBS, and Sling TV. Even with SpectrumU available for free with no password required, he doesn’t care, preferring to watch on-demand content on his tablet or the PlayStation he brought to school.

“I don’t know anyone who watches Spectrum TV and their company sucks anyway,” said Dylan. “I hate ads and I pretty much only binge watch stuff now, so this is useless for me.”

A few students told us they did bring televisions to campus to watch live television, but many just use an antenna. Nazareth and St. John Fisher are only a short distance from Pinnacle Hill, the location for most Rochester television transmitters, and reception is easy.

“Televisions are what our parents watch,” Serena at Nazareth told us. “I don’t know anyone my age with cable.”

Stop the Cap! tested the Android version of the app at both colleges. It reminds us of Spectrum’s streaming TV app, only less capable. The app does not support DVR-type recording, pause and rewind, or on-demand services — things college students would probably look for the most. We experienced occasional buffering watching CNN in a parking lot, but note Wi-Fi signal strength was not ideal. We also found, despite warnings in student handbooks, a number of student-run hotspots and wireless access points. At one dorm at St. John Fisher, we found over 60 Wi-Fi signals competing with the college’s own wireless network.

Cable companies believe by offering cable services to college students, they will get hooked on those services and subscribe after they leave college. But evidence suggests those under 30 are increasingly unlikely to pay for a cable television subscription and are dubbed “cable-nevers” for having no interest in subscription television. They are, however, avid users of streaming services like Netflix and Hulu.

Hong Kong Telecom Group (HKT) chief technical officer Paul Berriman believes copper phone wiring is a thing of the past and is nonplussed by efforts to wring a few more years of life out of infrastructure that cannot reliably support high-speed Internet and is costly to maintain. The only solution that makes sense is to get rid of the copper and replace it with fiber optic wiring.

While America talks about 1Gbps limited rollouts, he is thinking about speeds ten times faster with his announcement Hong Kong Telecom is preparing to launch 10 gigabit service across the territory and was continuing its efforts to tear out obsolete copper wiring.

The man partly responsible for ensuring Hong Kong’s broadband future is a fast and reliable one says HKT has 1.6 million broadband customers — 530,000 on fiber to the home service and 200,000 on less-desirable VDSL2 with vectoring, which still relies in part on copper wiring. He is not happy with copper wiring’s performance and support costs and wants it out of his network. His minimum target speed is 100Mbps and if he finds a building that for any reason does not deliver more than 30Mbps at all times, he instructs engineers to immediately tear out the copper and replace it with fiber.

Berriman

Overall, Hong Kong has an average Internet speed of 87 megabits per second, according to figures by Akamai. “Our (HKT) average is about 116Mbps,” he said. It is about to get much faster. The two major wired fiber competitors are HKT and HKBN and both compete fiercely for broadband customers.

HKT has three tiers of unlimited use fiber broadband (regular prices shown in U.S. dollars, prices lower for certain bundles and promotions):

• 300/300Mbps for $64.21/mo;
• 500/500Mbps for $77.10/mo;
• 1000/1000Mbps for $90/mo.

When the 10Gbps upgrade is complete, HKT is likely to further boost speeds and/or cut prices.

Berriman acknowledges that the densely packed multi-dwelling apartments and condos common across Hong Kong makes large fiber projects less expensive than elsewhere in the world, but believes costs can be managed by deploying incremental upgrades. For example, HKT today has fiber extending into 85 percent of Hong Kong’s buildings and can connect fiber to 79 percent of homes in Hong Kong within three days of receiving an order.

Depending on a customer’s requirements, HKT can save money by serving DSL over short lengths of existing in-building copper wiring for customers not subscribed to ultra-fast broadband speed tiers. The length of wiring is short enough to guarantee speed is not affected for these customers. When customers do need the fastest speeds, fiber is strung directly to their apartment. Despite this, HKT is progressively migrating away from “fiber to the basement” to an all-fiber network to simplify its facilities and increase reliability, especially as the demand for faster speeds continues to grow.

“Once we get to 50 or 60 percent usage of the fiber in the building we start to look at converting the rest to get rid of the [older DSL] electronics,” Berriman said.

HKT also operates a mobile network it acquired from “Sunday” in 2006 and has also bought out Telstra’s share of the formerly joint owned CSL. The wireless company has a 31 percent market share and 4.6 million customers on two different networks — one supplied by ZTE and the other from Huawei. To supplement its wireless mobile network and offload traffic, HKT also operates 14,000 Wi-Fi hotspots across Hong Kong and is a leader in the use of EAP-SIM, which makes it easy for connections to be handed off between its mobile and Wi-Fi networks without interruption.

With billions of dollars in new revenue and royalties to be made, Qualcomm and some members of the wireless industry are pushing regulators to quickly approve a new version of LTE wireless technology that will share many of the same frequencies used by home and business Wi-Fi networks, creating the potential for speed-killing interference.

Wireless operators believe LTE-Unlicensed (LTE-U) could be used to offload much of the growing wireless data traffic off traditional 4G LTE wireless data networks. With the cost of securing more wireless spectrum from regulators growing, LTE-U technology would allow operators like AT&T, Verizon, Sprint and T-Mobile to use the U-NII-1 (5150-5250MHz) and U-NII-3 (5725-5850MHz) unlicensed bands currently used for Wi-Fi to deliver high-speed wireless broadband traffic to their customers.

Qualcomm and Ericsson, behind the newest iteration of LTE, have a vested interest promoting it as the ideal choice for metrocell, indoor enterprise, and residential small cell applications. Every manufacturer incorporating LTE-U technology into everything from carrier-owned microcells to smartphones will owe royalty payments to both companies. With billions at stake, Qualcomm is doing everything possible to tamp down fears LTE-U signals will create harmful interference to Wi-Fi signals.

[flv]http://www.phillipdampier.com/video/CES2015 Qualcomm Demonstrates LTE-U 1-2015.mp4[/flv]

At the Consumer Electronics Show in Las Vegas held in January, a Qualcomm representative went as far as suggesting LTE-U will improve home Wi-Fi service. (5:42)

RCRWireless News:

[Qualcomm] set up a screened room with eight pairs of access points occupying the same channel and added Wi-Fi access-point terminals in one room and LTE-U terminals in another. The results show the average throughput of 3.3Mbps with Wi-Fi alone more than doubled to 6.7Mbps when the LTE-U access point was introduced.

In another test to show that LTE-U is a better neighbor to Wi-Fi than Wi-Fi itself, they took eight Wi-Fi nodes and replaced four of them with LTE-U nodes, the result of which showed a 1.9Mbps increase in average Wi-Fi throughput. In almost every test, the LTE-U enhanced network outperformed traditional Wi-Fi.

Burstein

Industry observer Dave Burstein is concerned advocates of LTE-U are trying to rush approval of the technology without verifying Qualcomm’s non-interference claims.

“The telcos are considering 40 and 80MHz channels that could easily swallow half of more of the Wi-Fi spectrum,” Burstein writes in response to an EE Times article about the technology. “If Wi-Fi is important, that’s a mistake to allow. Advocates are trying to rush it through even though there is not a single independent test or field trial.”

Qualcomm dismisses the interference complaints pointing to its own research showing the two standards can co-exist adequately. But multi-billion dollar wireless companies with nationwide Wi-Fi networks at stake are far less confident. In fact, LTE-U has already divided the two largest wireless carriers in the United States. Verizon Wireless is an original proponent of LTE-U while AT&T has expressed “concern,” a polite way of saying it isn’t happy. What separates AT&T and Verizon Wireless? AT&T has invested in a nationwide network of more than 34,000 Wi-Fi hotspots. Verizon offers just over 5,000, most for FiOS customers or those in especially high traffic venues.

A Stanford University professor with no ties to Qualcomm or the wireless industry privately shared his belief allowing 5GHz Wi-Fi signals to commingle with LTE-U is going to cause problems.

The development of “Wild West” Wi-Fi has always tracked differently than the licensed cellular/wireless business. Over more than a decade, evolving Wi-Fi standards have come to expect interference from other nearby Wi-Fi signals. In a densely packed city, more than two dozen Wi-Fi signals can easily be found all competing for their own space across the old 2.4GHz and newer 5GHz unlicensed bands.

Wi-Fi proponents credit its robustness to its “politeness protocol.” Before a wireless router or home hotspot fires up its Wi-Fi signal, it performs several tests to check for other users and constantly adjusts performance by backing off when it discovers interference from other signals. That is why a user can receive strong Wi-Fi signals but still endure reduced performance, as the hotspot accommodates nearby hotspots and other traffic.

It works reasonably well, according to Rupert Baines, a consultant at Real Wireless.

“But [Wi-Fi signals] are delicate, and they rely on implicit assumptions that there aren’t other things there (or aren’t too many),” Baines told EE Times. “In effect, they behave as though the unlicensed band were not technology neutral but were Wi-Fi only.”

The intrusion of LTE-U changes everything.

[flv]http://www.phillipdampier.com/video/Wireless Week Tuesdays with Roger LTE-Us Gain is Wi-Fis Loss 3-24-15.flv[/flv]

On the March 24, 2015 episode of Tuesdays with Roger, Recon Analytics’ founder Roger Entner talks with Wireless Week about the questions raised as major carriers, including T-Mobile and Verizon Wireless, plan to launch LTE into unlicensed territory. Concerns abound, particularly for consumers and companies who rely on Wi-Fi and don’t want licensed use in unlicensed bands to interrupt that service. (7:31)

Change in and of itself is not necessarily a bad thing, especially if LTE-U is superior to Wi-Fi, and some proponents suggest it is. Jag Bolaria, an analyst at The Linley Group, argues LTE better manages data/call handoff better than Wi-Fi access points can. LTE is also a more efficient spectrum user than Wi-Fi.

Last week, South Korea’s LG U+ demonstrated LTE-U was capable of 600Mbps speed, eight times faster than traditional LTE. But to accomplish that level of speed, LG U+ had to occupy 60MHz of bandwidth in the 5.8GHz band and allocate an extra 20MHz from its traditional LTE service. The company plans to further expand its use of South Korea’s 5.8GHz unlicensed band by occupying 80MHz of it to further boost speeds to 750Mbps. But the company did not say how the tests affected others sharing the same frequencies.

If LTE-U is superior, then why not gradually move every user towards the technology and away from Wi-Fi?

Aptilo Networks AB CEO Torbjorn Ward answers LTE-U is a solution in search of a problem.

“I think LTE on unlicensed sounds like a good idea if it wasn’t for the fact that there are four billion devices on Wi-Fi out there,” he told Light Reading, noting that 802.11ac can already run at 100Mbps, so there’s little need for the LTE boost. “I think when it comes to unlicensed, you can do a longer range with LTE, but I don’t see the full benefit.”

That does not seem to matter to LTE-U’s developers or cell phone companies that lack robust Wi-Fi networks of their own.

In the original Qualcomm/Ericsson proposal, both companies promote the fact they could launch LTE-U in the unlicensed Wi-Fi bands “as-is.” That is a big problem for AT&T and other Wi-Fi users because LTE-U evidently employs few, if any protection protocols in its initial specifications for other traffic. Verizon Wireless is reportedly lobbying against the development of interference protection protocols and has publicly asserted its interest in deploying LTE-U regardless of other users.

“In [the] USA, there are no requirements for unlicensed deployment that require changes to LTE air interface,” Verizon stated in its proposal: “New Band for LTE deployment as Supplemental Downlink in unlicensed 5.8GHz in USA.”

LTE-Unlicensed has been characterized as “rude” for not avoiding interference to other users.

Clint W. Brown, business development director of mobility wireless connectivity at Broadcom, and a vice-chairman of the Wi-Fi Alliance counters it is premature to approve LTE-U in the unlicensed Wi-Fi band without more testing and information about its interference protocols.

“We’ve heard about the tests they’ve done, but it’s not factual,” Brown told EE Times. We haven’t seen the data and we don’t know how the tests were set up. First, I’d like to see if [LTE-U] can detect low-level signals. Second, I want to make sure it features a ‘Listen before Talk’ decision process so that LTE-U will wait for an opening rather than barging into the conversation already taking place in the unlicensed spectrum. Third, there should be a back-off mechanism, when it sees a collision. “We aren’t aware of any publicly available documents explicitly stating those attributes.”

The Federal Communications Commission has also now taken an interest and issued a public notice asking stakeholders and consumers to share their thoughts on LTE-U and a companion technology known as Licensed Assisted Access (LAA) that would hand off data sessions between a wireless carrier’s traditional 4G LTE network and LTE-U.

The makes the discussion political as well as technical. The FCC traditionally permits industry groups to define standards, but Republican Commissioner Mike O’Rielly now worries the FCC might butt into that process.

“The decision to jump into this space rather casually causes me great concern,” O’Rielly said. “In particular, any step that could insert the commission into the standards work for LTE-U comes with great risk. I will be vigilant in ensuring that the commission’s involvement does not result in taking sides with various stakeholders, hindering technological innovation, or having any say about what technologies should or should not be deployed.”

For the moment, O’Rielly’s concerns about the FCC are premature as long as a division exists over LTE-U among many of the industry players:

• Companies FOR LTE-U: Verizon, China Mobile, Qualcomm, Ericsson, NTT DoCoMo, T-Mobile USA, Deutsche Telekom, TeliaSonera, and China Unicom.  Equipment manufacturers also in support: Nokia, NSN, Alcatel-Lucent, LG, Huawei, ZTE, Hitachi, Panasonic, and others;
• Companies AGAINST LTE-U (as now defined): Orange, Telefónica, Vodafone, AT&T, Sprint, SouthernLINC, US Cellular, DISH and a handful of vendors.

Burstein also uncovered evidence the wireless industry may be stacking the deck against increased competition and consumers. He found 11 of the world’s largest wireless companies (including AT&T, T-Mobile, and Sprint) quietly colluding on a proposal that would block anyone other than currently licensed LTE users from being able to use LTE-U on a standalone basis. The opaquely-titled proposal, “Precluding standalone access of LTE on unlicensed carriers,” is at least frank about its reasoning: “Standalone deployment in unlicensed spectrum implies drastically different business models from nowadays and might impact the value chain.”

In other words, if consumers are able to get savings from LTE-U using a new generation of non-traditional providers like Republic Wireless or Cablevision’s Freewheel that do not depend primarily on cellular networks, it could cost those 11 traditional wireless companies billions in lost revenue. To stop that, the companies propose requiring a special LAA “guard signal” to stop standalone access of LTE-U. Since only licensed cell phone companies have access to those frequencies, it automatically locks out new upstarts that lack mobile spectrum of their own.

Sneaky insertions like that may be exactly why the Obama Administration’s FCC is being more activist about monitoring the wireless industry, potentially cutting off anti-competitive proposals before they can become adopted as part of a formal technical standard.

[flv]http://www.phillipdampier.com/video/Fairness to Wi-Fi and LTE unlicensed 5-8-2015.mp4[/flv]

RCRWireless News gets deep into the development of LTE-Unlicensed and how it will impact cellular infrastructure, Wi-Fi and small cells. (25:39)