Tag Archive for Wimax

| April 2, 2013
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What is 4G Mobile Wireless

What is 4G Mobile WirelessWireless operators continue to roll out mobile networks built with acronym-heavy standards such as 4G, Long Term Evolution (LTE), IEEE 802.16 (WiMAX), or HSPA+. Stacey Higginbotham at GigaOM says it’s hardly a surprise that every press release is touting 4G, which presumably stands for the fourth generation wireless network. Only, according to InfoWorld, the truth is, neither WiMax nor LTE qualify as 4G technologies, according to the International Telecommunications Union Radiocommunication Sector (ITU-R). For a service to be called 4G by the ITU-R carriers will have to use one of two future mobile wireless technologies.

GigaOM reports that in October 2009, the ITU fielded 6 candidates that could meet the true definition of 4G mobile wireless. The main criteria required speed boosts, but more importantly, new technologies that make more efficient use of spectrum, as well as an ability to work with other radio access systems and fixed wireline networks. The standard also requires that equipment makers offer features that will help guarantee the quality of service on wireless networks. Of the 6 candidates, the ITU declared the upcoming called LTE-Advanced and WirelessMAN-Advanced – also known as IEEE 802.16m the only true 4G mobile wireless technologies.

True 4G wireless calls for peak speeds of 100 Mbps for mobile applications and 1 Gigabit per second for fixed networks. To do such speeds, operators will need five to ten times as much spectrum as most are using now to deploy LTE, as well as complex antenna configurations. The new 8×8 MIMO will need some new antennas at the tower and inside the mobile devices. Some operators won’t ever get to that point. Others might, but it’s going to take four or five years before people start rolling out anything like the ITU’s version of 4G mobile wireless according to the GigaOm article.

IEEE logoThe faux 4G we are getting now, comes in three flavors thanks to a bold marketing effort by T-Mobile writes Ms. Higginbotham. T-Mobile’s HSPA+ network is most assuredly 3G (or maybe 3.5G for some) but as its CTO, Neville Ray, argued with GigaOM founder Om Malik, its real-world mobile wireless speeds are better than those offered by WiMAX and are comparable to the real-world expectations of Verizon’s LTE network. The key to T-Mo’s experience lies in its spectrum resources. As a general rule, the more spectrum an operator has, the more lanes in its highway it can cram bits into. The blog says T-Mobile can use that spectrum to increase capacity or increase speeds. With plans to move from 21 Mbps to 42 Mbps speeds using HSPA+, T-Mo is going for speed to keep up with the wireless mobile Jones.

Laptop reports that other mobile wireless operators do not qualify as 4G either. “… Sprint and Clearwire’s Mobile WiMax (3 to 6 Mbps), T-Mobile’s HSPA+ (5 to 8 Mbps), and even Verizon Wireless’ LTE network (5 to 12 Mbps) don’t even come close to deserving the 4G moniker.

After all, marketers pushing LTE first starting waving the 4G mobile wireless flag several years ago, despite the ITU hadn’t yet decided if LTE was 4G. The first releases weren’t. We’ll have to wait for LTE-Advanced in about four or five years for true 4G. By then, it’s possible we’ll be dealing with 5G mobile wireless networks or something even better the marketers dream up. In the meantime, consumers will buy their faux 4G mobile wireless phones for their faux 4G mobile wireless networks and never sweat the difference GigaOm speculates.

The faux 4G networks are incremental improvements over 3G. As Tolaga Research analyst Phil Marshall told InfoWorld, these wireless mobile networks were designed from day 1 for data, and are all Internet protocol (IP) from end to end. That’s a huge improvement over 3G and it’s a marked change. Despite the improved architecture, Wi-Fi Net News asks if the spectrum is available to meet the 2015 rollout for real 4G. “It looks like the maximum speeds being discussed require extremely wide channels, like 100 MHz. That’s not impossible, but no U.S. carrier has 100 MHz in a chunk that it materializes. The FCC white-spaces rulemaking frees up a bunch of 6 MHz pieces, and that’s the last major realignment after DTV 700 MHz spectrum that I’m aware of. The definition of 4G may now be set, but the ability to roll out 4G at anything like the minimum speeds promised seems highly problematic even in five years.”

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| June 21, 2012
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White Space Broadband in Michigan

Residents of tiny Vergennes, Michigan a small community east of Grand Rapids, is taking matters into their own hands to solve their lack of broadband. They’re using “white space” radios from Carlson Wireless, combined with lightly licensed 3.65 WiMax and cellular microcells reports Dailywireless.

MichiganRyan Peel, owner of Vergennes Broadband has been continuously frustrated with the lack of broadband access. Peel’s solution according to the article is to combine three different technologies to extend wireless broadband coverage in his community: WiMAX at 3.65 GHz; TV white space radios; and micro-cell mini-towers to extend cellular phone coverage as well. It’s currently being constructed.

“There’s going to be a hybrid network”, explains Peel. “The primary technology will be WiMAX using 3.65 GHz semi-licensed band. It’s going to use WiMAX radio technology with 6x diversity. But there are a significant number of people in the area that WiMAX cannot reach, because of the terrain and tree cover as is the nature of rural America”, Peel told the blog.

TV white spaceVergennes Broadband uses two 100+ foot towers, each with a WiMAX radio and a Carlson TV white space radio called the RuralConnect IP. The software-defined radio uses the slivers of VHF and UHF spectrum not used by television broadcasters Dailywireless says.

According to the article, Peel is adding supplemental value to the project by offering femtocells. Femtocells provide a local cellular connection and use broadband for the backhaul. It simply plugs into customers’ new Internet connection to work.

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The plan seems like a kludge with a mix of three technologies. However, Comcast (CMCSA) and Charter are never going to do a build-out in rural areas. The Internet plans costs are

512 Kbps $39.99
1 Mbps     $49.99
2 Mbps     $59.99
3 Mbps     $79.99

This was a problem that RUS Obama-money was supposed to address, but that has gone so well. Maybe Merit can do it.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

 

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| December 4, 2010
Comments Off on U.S. Running Out Of IPv4 Addresses

U.S. Running Out Of IPv4 Addresses

U.S. Running Out Of IPv4 AddressesInformationWeek says IPv4 addresses will run out by the end of 2011. The plethora of mobile devices and an increase in Internet services to the home have led to a shortage of Internet addresses, which could run out by the end of 2011 according to InformationWeek. “We now face an exhaustion of IPv4 addresses,” Lawrence Strickling, administrator of the U.S. National Telecommunications and Information Administration (NTIA), said in the meeting, Reuters reported. There’s only room for 4.3 billion IPv4 addresses and the U.S. owns more than 90 percent of public IP addresses globally. The U.S. has used about 94.5 percent of its public IP addresses.

smartphones are depleting the supply of available addressesThe recent surge in tablet computers like the Apple iPad and Research in Motion Blackberry smartphones are depleting the supply of available addresses. The remaining 5.5 percent of the IPv4 addresses will be distributed among the Regional Internet Registries by next summer Reuters reported. New IP-based technologies such as LTE and WiMax have also contributed to the dwindling number of IPv4 addresses. M2M devices and smart technologies in consumer products like refrigerators, dishwashers, and vehicles also decrease the number of addresses available. “Fortunately, IPv6 will support 340 trillion, trillion, trillion addresses,” Strickling is quoted in Reuters, and appealed to businesses to widely roll out and integrate IPv6.

The reason is that IPv6 is a much longer address, but it makes up a lot more possible numbers, said Todd Day, industry analyst, Mobile & Wireless Communications, Frost & Sullivan. “It’s similar to a phone number with many digits, so it’s like having a longer phone number.” Switching to IPv6 could be costly for businesses and the technology might not integrate well with what they are using. “Ultimately you have equipment that has to be replaced in order to support IPv6, you have software changes and upgrades in other pieces of equipment and testing and actual implementation costs,” Day said.

In spite of the challenges, the new protocol has its advantages, he said. “There are definitely a lot of benefits to IPv6,” Day said. “In the bigger picture, it allows for more security, video and voice streaming, and better quality of service.

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This is not a U.S.-specific problem as InformationWeek would have their readers believe. This is a worldwide problem. John Curran President and CEO of ARIN pointed out in the article, “some other countries have already set their IPv4 depletion / IPv6 adoption plans.” Of course not in the US, there are so many other important issues for the Feds to worry about, like the noise level of TV commercials.

This gadget has been developed by Takashi Arano, Intec NetCore

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| December 27, 2009
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BPL Clings to Life

BPL Clings to LifeMarketwire recently reported that OneFi Technology, Inc. (PINKSHEETS: ONFI) announced the installation of WiMax/BPL Technology under the ARRA. The installation will occur in the 600 square miles Hogback Region of the Navajo Nation and will begin in January 2010.

Tom White, CFO of OneFi who is managing the project, said in a press release, “We are delivering the network to meet the broadband internet needs of the Navajo community and the installation will be a model for the other Native American communities.” OneFi officials said that the company would use the model developed with this project to expand its commitment to other Native American communities and rural areas. The contract is valued at $20 million when installed.

The application made under the Broadband Technology Opportunity Program (BTOP) states that a fully redundant self-healing hybrid WiMax / BPL broadband network will be developed.  The network architecture uses microwave delivered from the backbone to the local community. At the community level towers are installed so that WiMax can be broadcast throughout the total area. Base stations are used to receive and insert signals in power lines that deliver BPL broadband to the user.

The firm’s press release states that OneFi is a WiMax company developing broadband networks that are capable of 4G (4th Generation) compatibility. OneFi Technology’s focus is on rural communities and developing countries. WiMax is a wireless technology for the delivery of broadband internet.

In an article on TMCNET it seems that the firm requires payment upfront to start the job, “Once the company receives the funds, it said it will deploy its qualified engineers to the client’s area to layout the project and complete engineering working drawings. They expect this step to be completed in 45-60 days. The next step is the installation, and OneFi estimates this to be completed within 60 – 90 days, depending on the complexity of the project.

Apparently, this type of arrangement did not work out very well for the City of Villa Park, CA. In July 2008 OneFi installed a WiMax-WiFi communications system in the city. The OneFi Technology network’s broadband signal was to allow the citizens of Villa Park to access the internet at speeds up to 104 Mbps. However, in March 2009 City staff recommended that the City Council terminate the license agreement (with OnFi) based on lack of performance.

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BPL still clings to life. Maybe they can make it work in the middle of the desert where the giant antenna effect doesn’t matter too much. The installing vendor seems to have a checkered financial and performance past. We always take a look at the size of the firm compared to the size of the job. A job that is a reach for a firm may work out alright, but maybe not because of financing or staff issues. Good luck to the Navajo and us as taxpayers since we are footing the bill for this project.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| September 22, 2008
Comments Off on Broadband Reach Grows

Broadband Reach Grows

Broadband Reach GrowsA recent Gartner report was cited in a Network World article that claims Broadband to reach 77% of U.S. households by 2012. Gartner states that U.S. Broadband penetration will increase to 77% of U.S. households by 2012. The market research firm is basing this projection on emerging 4G wireless services as WiMAX and Long Term Evolution (LTE). Both technologies are expected to be launched over the next four years.

Based on Gartner’s projections, the U.S. will be in a 5th place tie worldwide with Japan for broadband penetration. The 2012 leaders will be South Korea (97%), the Netherlands (82%), Hong Kong (81%), and Canada (79%).

According to the Network World article, the current U.S. broadband services subscription rate is just above 50%.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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