...some of that juicy 700MHz spectrum Verizon is getting from the nation's biggest cable companies.

In an ironic turnabout, Deutsche Telekom’s T-Mobile USA, last year an acquisition target of AT&T, has filed comments with the Federal Communications Commission opposing Verizon’s spectrum purchase from the nation’s largest cable companies as “contrary to the public interest.”

Verizon Wireless is seeking to acquire a substantial block of unused AWS spectrum that is unlikely to provide any near-term benefits to Verizon Wireless customers (indeed, the company already holds other AWS spectrum and has not even put it to use yet). Rather, the principal impact of the acquisition would be to foreclose the possibility that this spectrum could be acquired by smaller competitors – such as T-Mobile – who would use it more quickly, more intensively, and more efficiently than Verizon Wireless. The acquisitions will limit the deployment of LTE by competitors of Verizon Wireless and the bandwidth available for such deployments.

If these transactions go forward, the end result will be less LTE capacity available overall and reduced competition in the provision of LTE, which would be contrary to the public interest.

T-Mobile, in particular, is upset because it owns no spectrum in the valuable 700MHz range — frequencies that can travel longer distances and easily penetrate buildings.  Verizon Wireless does, and will acquire much more if the FCC approves the deal to transfer spectrum from Comcast, Time Warner Cable, and Cox. [Correction: As one of our readers pointed out, the spectrum being acquired is in the AWS band, which T-Mobile argues in its filing is still suitable for a 4G network deployment.]  T-Mobile argues Verizon does not need the spectrum, and will effectively “warehouse” the frequencies to keep them off the open market.  Without prime spectrum, T-Mobile argues, it will be difficult for the company to deliver a 4G experience to its customers.

T-Mobile also has a bone to pick with Verizon Wireless and the cable industry over what it suspects is a non-compete agreement:

At least in effect, this has all the hallmarks of a pure horizontal allocation of markets.

From the limited information available, it appears as though Verizon, the majority owner of Verizon Wireless, has agreed (tacitly if not expressly) to halt its extensive efforts to expand into the cable business and the cable companies have, in turn, traded their control of valuable spectrum in exchange for this protection of their cable markets.

It has been publicly reported that, coincident with acquiring the cable companies’ spectrum, thereby eliminating potential new competition in mobile wireless, Verizon ended its FiOS build out plans and terminated its agreement to resell satellite television. This series of acts appears to limit Verizon’s activity as a potential competitor in the video market and limit the cable companies’ role as potential competitors in the wireless market, while at the same time foreclosing competing providers from one of the only available sources of spectrum.

As a result of this “triple play,” competition in both markets will be substantially reduced. The antitrust laws have long condemned such agreements, even among potential competitors.

Not All Frequencies Are Created Equal

Will Verizon ultimately warehouse its newest acquired spectrum?

Unless you are well-acquainted with the wireless industry, all most people know about their cell phones is that they turn them on and a signal strength meter indicates what kind of reception quality you are getting.  In fact, wireless companies use a range of frequencies across several different frequency bands to handle voice calls and data.  As an end user, you never know the difference.  But if your wireless company is forced to use higher frequencies, they often have a harder time penetrating buildings or provide only limited distance coverage.  That’s why AT&T and Verizon customers have a better chance of making and receiving calls in the middle of a supermarket or office building while others lose reception.

Clearwire has an extensive holding of very high frequencies at its disposal — frequencies the company cannot effectively use because they require considerably more infrastructure (ie. more cell towers) to provide an effective service to customers.  Clearwire customers already complain about poor reception inside buildings, a problem exacerbated by the very high frequencies the company has to use for its service.  Verizon and AT&T collectively control the majority of the best, more robust spectrum — the 700MHz band.  Verizon’s LTE network, for example, relies on spectrum that used to be used by high numbered UHF television channels.

Companies like T-Mobile rely on frequencies in the 1700MHz and 1900MHz bands.  While certainly adequate in urban and suburban areas, T-Mobile has to spend more on cell tower deployment and be especially concerned with rural coverage, especially in areas where the terrain makes “line of sight” reception from cell towers more difficult.

While today’s 2G and 3G networks have made due with current spectrum, companies like T-Mobile are having a hard time finding space to launch the next generation — LTE/4G technology — on their current spectrum.  Without LTE, T-Mobile (and others) will find themselves at a competitive disadvantage.  The company argues it should have the right to acquire some of the frequencies Verizon intends to capture from the cable industry, especially if Verizon has no immediate plans to use the spectrum.

Some of the wrangling by T-Mobile seems especially ironic because parent company Deutsche Telekom has indicated it wants to sell T-Mobile USA and leave the American wireless market.  It has shown little interest so far investing in a LTE/4G network upgrade.  Additionally, as part of AT&T’s failed merger bid, T-Mobile is expecting to receive frequencies from AT&T as part of the “failed transaction” clause in the original merger proposal.

An increasing number of wireless data users are getting some tough love courtesy of AT&T.

“Your data use this month places you in the top 5% of users,” the text message reads. “Use Wi-Fi to avoid reduced speeds.”  Our regular reader Earl hopes we’ll keep spreading the word.

AT&T’s speed throttle has now moved beyond the pages of tech blogs and into USA Today, where the newspaper explores the trials and tribulations of wireless data management policies at the nation’s largest wireless companies.

Mike Trang, along with at least 200,000 other AT&T customers, has been caught in AT&T’s wireless speed trap.  The result can be speeds punitively reduced to dial-up for the remainder of a billing cycle, leaving customers on AT&T’s “unlimited use” plan waiting up to two minutes for a single web page to load.

While AT&T tells the newspaper it only throttles the speeds of unlimited customers who use an average of 2GB or more per month to ease congestion (if that), the company’s “congestion problems” seem to disappear when customers switch to a usage-billing plan that charges fees based on different usage allowances:

Trang’s iPhone was throttled just two weeks into his billing cycle, after he’d consumed 2.3 gigabytes of data. He pays $30 per month for “unlimited” data. Meanwhile, Dallas-based AT&T now sells a limited, or “tiered,” plan that provides 3 gigabytes of data for the same price.

Users report that if they call the company to ask or complain about the throttling, AT&T customer support representatives suggest they switch to the limited plan.

“They’re coaxing you toward the tiered plan,” said Gregory Tallman in Hopatcong, N.J. He hasn’t had his iPhone 4S throttled yet, but he’s gotten text-messages from AT&T, warning that he’s approaching the limit. This came after he had used just 1.5 gigabytes of data in that billing cycle.

Many customers who have received the text message warning about their usage now think twice about everything they do with their phone, which may be part of what AT&T intended for its remaining customers grandfathered on a now-discontinued unlimited use plan.

John Cozen, a Web and mobile applications designer in San Diego, told USA Today he’s now “almost scared to use the phone.”

Cozen’s complaints to AT&T have been ignored and now he’s shopping for a new carrier.

AT&T’s warning-and-throttle system is the strictest among America’s largest wireless carriers. When customers exceed AT&T’s arbitrary declaration of being among the “top 5% of users,” their speeds are subject to severe slowdowns until their next bill is issued. This leaves customers who may have needed their phone at the beginning of the month for a business trip or vacation suddenly throttled for weeks because of what AT&T calls “congestion,” even if nobody else is using the cell tower.  Even worse, customers not yet deemed to be offending AT&Ts usage manners, or who pay per gigabyte, can overload a cell tower and create the very congestion AT&T claims it hopes to manage.  But only “unlimited use” customers get “time out” in the usage penalty corner.

Among other carriers:

• Verizon Wireless also uses a network management system that can throttle speeds for exceptionally heavy users, but their speed throttle is engaged only when individual cell towers are overloaded with traffic, and the speed reduction level will vary with the amount of traffic on that tower.  When congestion eases, speeds return to normal for everyone;
• T-Mobile throttles customers after a maximum of 5GB of usage per month, unless other arrangements are made with the company;
• Sprint Nextel does not have usage limits or a throttle on smartphone data plans at this time.

Copper thieves left thousands of phone customers in Eugene, Ore. without telephone service, forcing volunteer firefighters to get walk-in reports of fire and medical emergencies after 911 service was disrupted.

Authorities are looking for the suspects who scaled telephone poles and removed several hundred feet of critical phone wiring that provided service in the Eugene area.  CenturyLink officials rushed to pull new cables across phone poles to get service restored, and much of Eugene had their telephone landlines back within 24 hours.

CenturyLink and Oregon authorities claim copper thieves are now primarily targeting copper landlines because electrical lines are more dangerous and phone wire insulation is easier to burn or strip off, leaving the thieves with spools of bare copper wiring easily sold to scrap dealers.

Copper prices have spiked over the past few years, increasing interest among thieves.  Officials in several states have partnered with scrap dealers to try and limit illicit sales, and criminal penalties have been increased.

Occasionally, copper line theft also disrupts cell phone service, because many cell towers are still connected via copper circuits, especially in rural areas thieves favor.

[flv width=”360″ height=”290″]http://www.phillipdampier.com/video/KMTR Eugene Phone Service Restored in Eugene 12-19-11.mp4[/flv]

KMTR in Eugene covers the latest copper caper affecting CenturyLink phone customers in Oregon.  (2 minutes)

If they build it, will Verizon, Time Warner Cable, or Comcast come?

The Massachusetts Broadband Institute (MBI) has just received a major shipment of cable it will use to construct part of its 1,300-mile fiber optic network, designed to provide better-than-dialup service to over 120 communities in western and north central Massachusetts.  That is, if providers show any interest in selling access to it.

The news that the broadband blockade in the western half of the state may finally come to an end is being trumpeted by local newspapers and TV newscasts from Springfield.  WSHM used the occasion to celebrate with current AOL dial-up user Ryan Newhouser, of Worthington:

A high-speed informational highway will be set up with thousands of miles of high-speed fiber optic cables. Those fibers will now be installed on utility polls across Western Mass.

Now residents sitting at their computers in frustration can finally look forward to high-speed internet access.

Perhaps.

As Stop the Cap! first explored earlier this year, the new fiber network is good news for western Massachusetts.  But it alone will not deliver service to the masses who desperately want faster Internet access.

The incumbent phone and cable companies have certainly not shown much interest.  Verizon treats western Massachusetts much the same way it served its landline customers in the rest of northern New England (Maine, New Hampshire, and Vermont.)  The company’s landline network was allowed to deteriorate along with Verizon’s interest in providing service in the largely rural states.  Eventually, it sold its operations north of Massachusetts to FairPoint Communications.  Comcast and Time Warner Cable are missing in action in many parts of the region as well.  As big phone and cable companies concentrate investments in more urban areas like Boston, many residents in places like Worthington can’t buy broadband service at any price.

MBI optimistically hopes the presence of its new fiber backbone and middle-mile network will change all that.  But outside of AT&T’s apparent interest it to provide service to its cell towers, there has been no publicly-expressed enthusiasm by Verizon or cable operators to begin serious investment in broadband expansion across the region.

The Last Mile Network Challenge

So what is holding western Massachusetts back?  The same thing that keeps broadband out of rural areas everywhere — the “last-mile” problem.  Traditionally, operators target urban and suburban areas for their investments because the construction costs — wiring up your street/home/business — can be recouped more easily when divided between a pool of potential customers.  Every provider has their own “return on investment” formula — how long it will take for a project to pay for itself and begin to return profit.  If your street has 100 homes on it, the chances of recouping costs are much higher than in places where your nearest neighbor needs binoculars to see your house.  Pass the ROI challenge and providers will invest capital to wire your street.  Fail it and you go without (or pay $10,000 or more to subsidize construction costs yourself.)

That is why eastern Massachusetts has plentiful broadband and the comparatively rural western half often does not.

MassBroadband 123 is the state’s solution to the pervasive lack of access across the western half of The Bay State.  It will consist of a fiber backbone and “middle mile” network, solving two parts of a three-part broadband problem.  The project’s commitment to deliver open access to institutions and commercial ISPs across the region is partly thanks to the availability of broadband grant money, particularly from the federal government.

Projects similar to MBI’s MassBroadband 123 typically include the hoped-for-outcome that private companies will step up and invest to ultimately make service available to end users.  Unfortunately, large incumbent providers often remain uncommitted to wiring the last-mile, and communities promised ubiquitous broadband end up with an expensive institutional network that only serves local government, public safety, schools, libraries, and health care facilities.

Thankfully, it does not appear MBI is depending on Verizon, which has shown no interest in spending significant capital on its legacy landline network or cable operators that are unlikely to break ground in new areas.

Communities are increasingly learning if they don’t have service today, the only real guarantee they will get it is by providing it themselves.  That is where WiredWest comes in.  It is a community-powered partnership — a co-op for broadband — pooling resources from 22 independent towns (with 18 more expected to join) to build out that challenging last mile, and deliver future-proof fiber to the home service.  No last generation DSL, slow and expensive fixed wireless, or limited capacity coaxial cable networks are involved.

WiredWest Members

Founding member towns span four counties, including Berkshire County towns of Egremont, Great Barrington, Monterey, New Marlborough, Otis, Peru, Sandisfield, Washington and West Stockbridge; Franklin County towns of Ashfield, Charlemont, Conway, Heath, New Salem, Rowe, Shutesbury, Warwick and Wendell; Hampshire County towns of Cummington, Heath, Middlefield and Plainfield; and the Hampden County town of Chester.

Most of the construction costs for the new network will likely come from municipal bonds, because government grants typically exclude last mile network funding.  Commercial providers often lobby against municipal-funded networks as “unfair competition,” a laughable concept in long-ignored western Massachusetts, where Verizon pitches slow speed DSL, if anything at all.

WiredWest compares rural broadband with rural electrification.  Community-owned co-ops provide service where few private companies bothered to show interest:

Think back to the rural electrification of America. Then, as now, it wasn’t profitable enough for private companies to build out electrical service to rural communities. Imagine where those communities would be today if the government hadn’t stepped in to help fund this essential service – which over time has sustained itself and become a profitable enterprise.

Rural fiber-to-the-home is affordable when you use an appropriate financing and business model that isn’t subject to the same short-term measures of profitability as a private company. A municipal model for example, allows capital investment that can be written off over a longer period of time.

This type of business model isn’t limited to community-owned broadband.  Other countries that treat broadband as an essential utility have, in some cases, boosted broadband beyond a simple cost/benefit “ROI” analysis.

Constructing a broadband network for western Massachusetts still presents some formidable challenges, however:

1. There is a serious imbalance in government grant programs.  A largesse of government funding for institutional broadband has delivered scandalously underused Cadillac-priced networks communities, libraries and schools cannot afford to operate themselves once the grant money ends.  Meanwhile, funding to cushion the cost of wiring individual homes and businesses is extremely scarce.  Isn’t it time to divert some of that money towards the most difficult problem to overcome — wiring the last mile?
2. Government impediments to community broadband must be eliminated.  Repeal laws that restrict public broadband development.  Early experiments in municipal telecom networks have taught valuable lessons on how to operate networks efficiently and effectively.  But the broadband industry engages in scare tactics that highlight failures of older public projects like community Wi-Fi in an effort to keep superior publicly-owned fiber-to-the-home networks out of their markets.
3. The public is not always engaged on the broadband issue and accepts media reports that misunderstand institutional broadband as a solution for those stuck using dial-up.  No matter how good a network is, if the “last mile” problem remains unsolved, the closest consumers like Mr. Newhouser will get to fiber service is looking at the wiring on a nearby telephone pole.  In many communities, fiber broadband paid for by public tax dollars is only accessible at the local public library.  Taxpayers must demand more access to networks they ultimately paid for out of their own pockets, and should support existing public broadband initiatives wherever practical.

[flv width=”640″ height=”380″]http://www.phillipdampier.com/video/WSHM Springfield Broadband internet coming to western Mass 12-8-11.mp4[/flv]

WSHM in Springfield says if you don’t have broadband in western Massachusetts now, it should be coming to your area soon.  But will it?  (3 minutes)

AT&T customers are getting no bars in more places in the state of Connecticut as the wireless company deals with 150-200 cell towers that are either without power or were damaged by a weekend storm that brought more than 20 inches of snow to some parts of New England.  But some customers are questioning why AT&T has suffered damage to their cell tower network while other carriers report no significant damage at all.

“As of Wednesday afternoon, we still have no AT&T wireless service and it takes miles of driving to find a cell tower that is still working,” reports Sam, a Stop the Cap! reader outside of Hartford.  “My friends’ Verizon Wireless and Sprint phones work as if the storm never happened. In fact, I can’t find any Verizon customer who is impacted by the storm, but that’s sure not true with AT&T.”

On Sunday, Connecticut Gov. Dannel P. Malloy noted AT&T told state officials that 152 cell towers had been damaged by the storm and that cell phone service would likely be disrupted in some portions of the state for some time to come.  But Verizon Wireless reports outside of some power outages, they sustained absolutely no damage to any of their towers and backup generators are expected to provide uninterrupted service even in areas where extended power outages are occurring.  A Verizon spokesman reported at least 93 percent of its network was operating as of Tuesday, with most of the sporadic outages due to backup batteries depleting their stored energy before technicians arrive to fire up backup generators.

Sprint also reports only minor interruptions to its service in Connecticut, mostly due to power failures.

In most cases, extended power interruptions are responsible for cell tower service failure.  When power is restored, cell service generally is as well.  But this outage proved more extensive because AT&T’s backhaul network between towers and their own facilities was also damaged by falling tree limbs and power poles.

Residents tell the Hartford Courant AT&T has made some progress as the week wears on, with slowly improving service as towers are brought back online.

“We continue to make progress in restoring service to our customers in the wake of the recent snowstorm,” Kate McKinnon, AT&T spokeswoman for the northeast region told the newspaper. “We have deployed generators and crews across the storm-impacted areas and are working around the clock to address service issues. We also continue to work with local Connecticut utility companies as they restore commercial power to affected cell sites and facilities.”

Power utility companies have first priority in service restoration. Connecticut Light & Power reports 77 percent of their customers lost power during the snowstorm.  As of this afternoon, at least 544,000 are still waiting for power to be restored.