Wednesday, July 18, 2012

The Future of Wireless: Spectrum and Cell Technologies

John Garvey from Garvey Communications dropped me an email last week and asked if I could write up a post about small cell wireless technologies. He had read a piece in Business Week titled Want to See the Future of Mobile Coverage? Go to a Baseball Game that describes how Verizon Wireless is using 4G LTE COWs (Cells On Wheels) and COLTs (Cells on Light Trucks) at sporting events. Both of these technologies provide portable bandwidth where and when it is needed. If you've ever been in a packed stadium and tried to make a call, upload a picture to Facebook, or post a tweet you've likely had problems getting a connection.

The more I thought the more I realized a good discussion will take a little more than a single post so I'm going to write a series on new antenna technologies over the next few weeks. Today let's discuss the way cellular is done now and why it's not going to work in the future.

Everyone know what a cell tower looks like and most would describe them as big, tall and ugly with lots of antennas hanging on them. If you look on the ground at the base of the towers you'll typically see a few "huts" that contain (among other things) large amplifiers that provide signal up to the antennas at the top of the towers. Connectivity to the towers (referred to as "backhaul") is provided by fiber. Here's a simplified drawing of a big tower setup.


The towers are fed by fiber and optical signals transmitted on the fiber get converted back and forth to wireless signals, giving us connectivity on our mobile devices. Seems pretty simple and if we need more capacity all we need to do is run more fiber to the towers, right? Well..... not really. Providers can bury as much fiber as they want and convert it to wireless frequencies but that's not going to solve the problem. The bottleneck today is spectrum and (especially) in congested areas this bottleneck is causing the dropped calls and slow wireless data access we've all experienced.

So, spectrum is a problem - what exactly is it? Each provider - AT&T, Verizon Wireless, etc - have licenses from the Federal Communication Commission (FCC) to use specific frequencies for information transfer. It is important each providers spectrum be allocated in a way that it is kept separate for interference free communications so different providers cannot typically share licensed spectrum. When I think about spectrum I think about tuning the radio in my car - each station is licensed by the FCC and has it's own "channel", broadcasting at a specific frequency.

Now - just like the numbers on your car radio tuner - there is only a finite amount of total spectrum available. This finite availability, along with not being organized in the most efficient way, limits things like coverage, connection speed and quality of service. The spectrum issue is really coming to a head now with high bandwidth LTE services being rolled out by all providers - higher speeds, more bandwidth requirements and more people using their phones for voice, video and data services.

What's being done by the wireless providers to get around this spectrum bottleneck? There's been a mad scramble to purchase as much spectrum as possible but..... utilizing a finite amount of spectrum the way it is currently being used is not going to solve the problem long term. They'll still end up running out. What's being done?

There are a number of solutions. We're also seeing providers building WiFi networks (WiFi uses unlicensed spectrum) to offload some of the licensed spectrum traffic. There's a bunch of other technologies including small cells (the COWS and COLTS John was asking about), spectrum re-farming and cell-splitting that look promising. I'll take a look at some of these in my next few posts.

Tuesday, June 19, 2012

Wireless Options: Virgin, Verizon, Sprint and CDMA

Virgin Mobile has announced they will soon be selling a pay-as-you-go iPhone4 and iPhone 4S, offering contract free service starting at $20 per month, moving all the way up to $50 per month for unlimited talk and data.

What's interesting about this is Virgin uses something called CDMA for channel access - that's the same technology used by Sprint and Verizon Wireless. And get this - Virgin is considered a virtual mobile network operator, purchasing network capacity from Sprint. This means when you use a Virgin phone, you're using the Sprint wireless network. Sprint service is just as good as AT&T or Verizon in my opinion. The latter two just do a lot more advertising to make us thing they are better.

So, let's think about this, Virgin uses the same access technology as Sprint and Verizon and Virgin's a lot cheaper. You're also not locked into a 2 year contract. Hmmmmm......switching sounds like a no brainer. There is a catch though - Virgin is charging $650 for a iPhone 4S - full price. It's still cheaper though over the long run. Let's compare Sprint's $80 per month unlimited data service (two year contract) to Virgin's $50 per month service (pay as you go).

I have not included Verizon Wireless in the table because Verizon is eliminating the unlimited data plans. If you've recently bought a Verizon iPhone 4S though you could switch by unlocking (not recommending you do this but many have or are considering) it and switching over to the Virgin network. To break your Verizon contract you would have to pay around $600 which sounds like a lot but it may be worth crunching some numbers to compare total cost.

If you've got an AT&T iPhone you're out of luck - it uses a different technology for channel access called GSM which is not CDMA compatible.

Friday, June 15, 2012

Massachusetts Green High Performance Computing Center (MGHPCC) - June 2012

I've written in the past about the Massachusetts Green High Performance Computing Center (MGHPCC) in Holyoke, MA. The project is collaboration of five of the state’s most research-intensive universities (Boston University, Harvard, MIT, UMass Amherst and Northeastern), state government and private industry — the most significant collaboration among government, industry and public and private universities in the history of the Commonwealth, and the first facility in the nation of its kind.

The facility is currently under construction and when completed will provide a world-class computational infrastructure, indispensible in the increasingly sensor and data-rich environments of modern science and engineering discovery. Today, virtually no major breakthrough, be it designing a new drug, developing new materials for clean energy or addressing climate change -- can take place without computation. In silico experimentation adds a powerful new dimension to knowledge discovery in all fields, alongside theory, physical experimentation and observation. With the increasingly integrated role of computation in fundamental and applied research, the MGHPCC represents a critical piece of infrastructure that will continue to fuel the world-leading innovation economy of the Commonwealth of Massachusetts through cooperative research, education and outreach activities.

On Wednesday afternoon a group of got to tour the construction site. Here's my picture set.



We all left with our jaws hanging. An incredible facility and some amazing people doing some things nobody else has ever done. Thanks especially to Claire and John.

Tuesday, June 5, 2012

See You Later WiMAX

I've written here in the past about WiMAX and the slow but inevitable take over by LTE. Well, it's starting soon - at least with Sprint's wireless services. Here's some details from an Inside Sprint blog post yesterday:

  • On 6/7, smartphone customers in markets slated for LTE will be notified via text message of the upcoming launch.
  • The message states: SprintFreeMsg: Ready for some GREAT news? Sprint is rolling out an all-new network in (insert city here). Learn more at sprint.us/sat Reply End to stop.
  • Sprint’s all-new network launches by mid-summer 2012 in 4 cities: Atlanta, Dallas, Houston, and Atlanta.
  • More cities launch later this summer and throughout the year.
  • The all-new network includes the launch of 4G LTE and improvements to Sprint’s 3G network.
Benefits include:
  • More reliable connection to voice calls, emails, and apps, and the internet
  • Expanded coverage in their area
  • Faster downloading, surfing and streaming
  • Improved indoor/outdoor signal strength
  • Enhanced voice quality
  • Fewer dropped calls
See you later WiMAX!

Monday, June 4, 2012

Likejacking Using Social Media Spam

Social media spam is taking off and it is not good. Up until a year or so ago, spam was primarily delivered using email. As email spam filters have improved - spammers have turned to an easier target - social media sites including Pinterest, Facebook and Twitter.

How bad is it getting? Mark Risher, CEO of Imperium is quted in a recent Business Week piece claiming spammers create as many as 40% of the accounts on social media sites. He also says about 8 percent of messages sent via social pages are spam. This is twice the volume of six months ago.

Here's how it works in Facebook - it can be as simple as liking or sharing an image or page which could allow a spam app access to your profile and friend list. Many are now referring this as "likejacking" or "clickjacking". Pinterest is extremely vulnerable with spammers embedding links in pictures - click a thumbnail to view a picture and you may end up linked to someplace you do not want to go.

Social media sites are playing catchup now, hiring hundreds of programming specialists and security experts to protect users from spammers. It will get better.

Last January, Facebook sued Ascend Media, an advertising firm that, according to the same Business Week piece, is pulling in around $960 thousand per month.  In addition, Twitter recently sued alleged spammers Skootle and JL4 Web Solutions.

Bottom line - don't friend, like, share, click, users and things that look spammy.

Sunday, June 3, 2012

Bits and Bytes Podcast - 4G LTE, Motorcycles Made From Car Parts, and Bamboo Clothing

Last week Mike Q and I recorded a new 36 minute and 10 second podcast covering 4G LTE, Motorcycles made from Car Parts, and Bamboo Clothing. Here's links to referenced content  in the podcast:

Verizon HomeFusion Uses 4G LTE to Complete Last Mile Nationwide  


Google Translate Car to Motorcycle

You can listen directly in your browser clicking the play arrow below.



If you have iTunes installed you can subscribe to our podcasts by clicking here.

Sunday, May 20, 2012

Goodbye Landlines.... Hello Fixed LTE

I've been buried with final exams and travel the past few weeks and have not had a chance to post. Lots of things have been happening though.

With all of the Facebook IPO hype and the Verizon Wireless' data cap announcement you may have missed something potentially much bigger. Back on May 2, Verizon Wireless put out a news release titled HomeFusion Broadband From Verizon Now Available Nationwide on America's HomeFusion Broadband From Verizon Now Available Nationwide on America's Largest 4G LTE Network

It's about putting an antenna on your house that will replace those copper telephone wires with 4G LTE wireless. Now, Verizon's 4G LTE network currently covers approximately two-thirds of the U.S. population and 230 markets and this new product is designed to deliver both data and voice services for these people in these markets. LTE has been pitched initially as a mobile product but works great using fixed antennas attached to a home or business.

Here's how this new fixed antenna Verizon 4G LTE product works. Verizon techs come out to your home and install a cylinder-shaped 4G LTE antenna (see picture). This antenna picks up an LTE signal and transmits it to a broadband router in the home. That broadband router can have up to 4 wired and 20 wireless WiFi connections.

Verizon is saying that, in a fully loaded real world environment, users should experience average data rates between 5 and 12 Mbps downstream and and between 2 and 5 Mbps upstream. That's some pretty good bandwidth. Pricing ranges from $60 (10 GB cap) to $120 (30 GB cap) per month. If users go over the cap, they'll pay an extra $10 per GB.

Here's where it gets really interesting. Back on April 19, Verizon announced they would stop selling DSL as an option to customers who live in FiOS territory. Today I heard (unconfirmed) Verizon will stop using DSL range extenders. These range extenders are being used to get DSL signal out long distances. DSL sure sounds like it is going away soon.

Is 4G LTE the next step? Will fixed 4G LTE replace those old copper landlines that voice and DSL run on? Two thirds of the U.S. population is covered by 4G LTE...... I've written about it in the past...... I've always thought so and right now I'm thinking it's all going to happen a lot quicker than I ever imagined.