How to Manage The Rising Tide Of Mobile Video

While social networking continues to explode and consumers transfer their daily Web habits to the mobile phone, there is a struggle simmering in the background for network operators to keep up with the demand. Carriers are especially feeling the impact of mobile video content’s speedy growth and the zealous use of it by subscribers around the globe.

Industry analysts predict by 2014, video will make up 66% of all mobile data traffic.1 This certainly isn’t surprising when you consider that the expected number of global mobile video/TV users will jump from approximately 250 million in 2010 to about 450 million in 2014.2
This is just a small sampling of industry research and analysis that points to consumers’ unquenchable thirst for mobile video. In part this desire is driven by the wave of new video-enabled mobile devices, video has redefined mobile networks and placed a premium on bandwidth—a demand the current networks can’t support.

On the horizon is 4G, marketed as the miracle cure for data congestion. Some consider it a band-aid solution, while others see it as a universal panacea. Yet the reality is that mobile carriers are seeking solutions today to deal with the expanding mobile Internet and, more specifically, the increasing use of mobile-video applications.
There is certainly no magic bullet. But with a combined approach, involving the adjustment of both carrier infrastructure and content delivery strategies, the industry will be able to curb the skyrocketing network-congestion problem.

Read more »

How to Manage The Rising Tide Of Mobile Video

While social networking continues to explode and consumers transfer their daily Web habits to the mobile phone, there is a struggle simmering in the background for network operators to keep up with the demand. Carriers are especially feeling the impact of mobile video content’s speedy growth and the zealous use of it by subscribers around the globe.

Industry analysts predict by 2014, video will make up 66% of all mobile data traffic.1 This certainly isn’t surprising when you consider that the expected number of global mobile video/TV users will jump from approximately 250 million in 2010 to about 450 million in 2014.2
This is just a small sampling of industry research and analysis that points to consumers’ unquenchable thirst for mobile video. In part this desire is driven by the wave of new video-enabled mobile devices, video has redefined mobile networks and placed a premium on bandwidth—a demand the current networks can’t support.

On the horizon is 4G, marketed as the miracle cure for data congestion. Some consider it a band-aid solution, while others see it as a universal panacea. Yet the reality is that mobile carriers are seeking solutions today to deal with the expanding mobile Internet and, more specifically, the increasing use of mobile-video applications.
There is certainly no magic bullet. But with a combined approach, involving the adjustment of both carrier infrastructure and content delivery strategies, the industry will be able to curb the skyrocketing network-congestion problem.

Read more »

How to Manage The Rising Tide Of Mobile Video

While social networking continues to explode and consumers transfer their daily Web habits to the mobile phone, there is a struggle simmering in the background for network operators to keep up with the demand. Carriers are especially feeling the impact of mobile video content’s speedy growth and the zealous use of it by subscribers around the globe.

Industry analysts predict by 2014, video will make up 66% of all mobile data traffic.1 This certainly isn’t surprising when you consider that the expected number of global mobile video/TV users will jump from approximately 250 million in 2010 to about 450 million in 2014.2
This is just a small sampling of industry research and analysis that points to consumers’ unquenchable thirst for mobile video. In part this desire is driven by the wave of new video-enabled mobile devices, video has redefined mobile networks and placed a premium on bandwidth—a demand the current networks can’t support.

On the horizon is 4G, marketed as the miracle cure for data congestion. Some consider it a band-aid solution, while others see it as a universal panacea. Yet the reality is that mobile carriers are seeking solutions today to deal with the expanding mobile Internet and, more specifically, the increasing use of mobile-video applications.
There is certainly no magic bullet. But with a combined approach, involving the adjustment of both carrier infrastructure and content delivery strategies, the industry will be able to curb the skyrocketing network-congestion problem.

Read more »

Purdue University Deploying 4G Network as Part of Wireless Rollout

Purdue University will be one of the early recipients of Verizon Wireless' rollout of a 4G network starting this year. This fourth generation data network, which is using Long-Term Evolution (LTE) technology, is expected to provide four to 10 times the transmission speeds currently available in 3G networks.

The institution was chosen to participate in the deployment based on its track record with using mobile technology to enhance learning, according to Lowell McAdam, president and chief operating officer of Verizon. Recent technologies developed at Purdue include Mixable, an academic integration with Facebook; a student discussion tool, HotSeat, which allows students to interact with classmates and faculty with Twitter and text messages; and eStadium, to deliver athletic game services to spectators.


The university also contracted with Verizon Business to implement a campuswide 802.11n wireless network, which will encompass 6,000 access points in 256 buildings. That project is expected to be completed in the 2010-2011 academic year.

Verizon said the broader rollout of 4G will include 38 metropolitan areas and 60 commercial airports, including Indianapolis International Airport, located within 90 minutes of the West Lafayette-based university. The company is currently installing LTE equipment at existing cell sites and switching centers around the United States.

According to Mr. McAdam, the partnership with Purdue will explore the next phase of how 4G technology can improve education across our nation. Verizon Wireless said it expects 4G LTE average data rates to be 5 Mbps to 12 Mbps on the downlink and 2 Mbps to 5 Mbps on the uplink in real-world, loaded network environments.

"At Purdue, the advancement of mobile technology is critically important--both to students and faculty. The addition of Verizon's 4G network will contribute in a noticeable way to their success," said Gerry McCartney, Purdue's CIO and vice president for IT.

Purdue University Deploying 4G Network as Part of Wireless Rollout

Purdue University will be one of the early recipients of Verizon Wireless' rollout of a 4G network starting this year. This fourth generation data network, which is using Long-Term Evolution (LTE) technology, is expected to provide four to 10 times the transmission speeds currently available in 3G networks.

The institution was chosen to participate in the deployment based on its track record with using mobile technology to enhance learning, according to Lowell McAdam, president and chief operating officer of Verizon. Recent technologies developed at Purdue include Mixable, an academic integration with Facebook; a student discussion tool, HotSeat, which allows students to interact with classmates and faculty with Twitter and text messages; and eStadium, to deliver athletic game services to spectators.


The university also contracted with Verizon Business to implement a campuswide 802.11n wireless network, which will encompass 6,000 access points in 256 buildings. That project is expected to be completed in the 2010-2011 academic year.

Verizon said the broader rollout of 4G will include 38 metropolitan areas and 60 commercial airports, including Indianapolis International Airport, located within 90 minutes of the West Lafayette-based university. The company is currently installing LTE equipment at existing cell sites and switching centers around the United States.

According to Mr. McAdam, the partnership with Purdue will explore the next phase of how 4G technology can improve education across our nation. Verizon Wireless said it expects 4G LTE average data rates to be 5 Mbps to 12 Mbps on the downlink and 2 Mbps to 5 Mbps on the uplink in real-world, loaded network environments.

"At Purdue, the advancement of mobile technology is critically important--both to students and faculty. The addition of Verizon's 4G network will contribute in a noticeable way to their success," said Gerry McCartney, Purdue's CIO and vice president for IT.

Purdue University Deploying 4G Network as Part of Wireless Rollout

Purdue University will be one of the early recipients of Verizon Wireless' rollout of a 4G network starting this year. This fourth generation data network, which is using Long-Term Evolution (LTE) technology, is expected to provide four to 10 times the transmission speeds currently available in 3G networks.

The institution was chosen to participate in the deployment based on its track record with using mobile technology to enhance learning, according to Lowell McAdam, president and chief operating officer of Verizon. Recent technologies developed at Purdue include Mixable, an academic integration with Facebook; a student discussion tool, HotSeat, which allows students to interact with classmates and faculty with Twitter and text messages; and eStadium, to deliver athletic game services to spectators.


The university also contracted with Verizon Business to implement a campuswide 802.11n wireless network, which will encompass 6,000 access points in 256 buildings. That project is expected to be completed in the 2010-2011 academic year.

Verizon said the broader rollout of 4G will include 38 metropolitan areas and 60 commercial airports, including Indianapolis International Airport, located within 90 minutes of the West Lafayette-based university. The company is currently installing LTE equipment at existing cell sites and switching centers around the United States.

According to Mr. McAdam, the partnership with Purdue will explore the next phase of how 4G technology can improve education across our nation. Verizon Wireless said it expects 4G LTE average data rates to be 5 Mbps to 12 Mbps on the downlink and 2 Mbps to 5 Mbps on the uplink in real-world, loaded network environments.

"At Purdue, the advancement of mobile technology is critically important--both to students and faculty. The addition of Verizon's 4G network will contribute in a noticeable way to their success," said Gerry McCartney, Purdue's CIO and vice president for IT.

WiMax vs. LTE: Which Will 'Win' in a Fast Deployment Cycle?

One of the biggest stories during the next year or so will be the rollout and subsequent marketing of 4G wireless networks.

It will be an interesting process as the two approaches – Long Term Evolution (LTE) and WiMax – vie for supremacy. The die already seems to be cast, however: WiMax, through Clearwire and its Clear service, is first out of the gate. LTE, however, through its use by Verizon and AT&T, seems positioned to be the dominant player when the dust settles.

WiMax suffered a bit of a blow earlier this month when Cisco decided not to build radios for the platform:

Technology is not an either/or game.The Cisco move clearly is not good news for WiMax, both in terms of image and because the vendor brings a lot to any table at which it chooses to sit. It’s also clear that WiMax will not be as big as LTE. All that said, however, it is apparent that WiMax remains a significant wireless networking force.

It is important to remember that the platform that comes in second in such a massive market will still be very successful. There are, for instance, secondary and specialty niches:

…WiMax is making strides with at least one significant niche category: smart grid networking. Earth2Tech reports that startup Arcadian Networks has released the AE20r gateway, a WiMax-focused device. The story says that Arcadian, which owns spectrum in the middle of the country, sells smart grid services to utilities. The story notes other vendors in the smart grid/WiMax arena, including Grid Net, General Electric, Alvarion and National Grid.

To be sure, Clearwire is not backing down:

Clearwire seems to be at the center of cable’s move to mobilize voice and advanced mobilized applications. FierceWireless, in a general report about Clearwire’s progress, said that the company plans to introduce a WiMax-enabled smartphone during 2010. The aim, according to CEO Bill Morrow, is to have the device in the field during the second half of the year. The story says that Sprint is planning 3G/4G phones, also by the end of 2010.

On the other side of town -- or of the R&D lab hallway -- is LTE. While WiMax was first out of the gate, the LTE sector is making up for lost time:

The LTE trial and test phase is white hot.

Driven by the increase in demand caused by fixed-rate data plans, coupled with the popularity of the iPhone and other advanced devices, the pace of testing of one of the two flavors of 4G technology, Long Term Evolution (LTE), is accelerating.

LTE is particularly active on the international front. ABI Research says that as of the end of September, 100 mobile networks were holding trials or were set to start. More than 40 of the trials are ongoing in the Asia-Pacific region – led by Japan and South Korea, with 33 contracts awarded. ABI Research says that though the first networks won’t start commercial operation until the end of next year, a robust 32.6 million subscribers will be served by LTE by 2013. The pressure is so great that many operators are taking the interim step of upgrading 3G networks to High Speed Packet Access (HSPA) status.

The stage was set once AT&T and, especially, Verizon made their choices:

Details are emerging on Verizon Wireless’s LTE rollout. Softpedia reports that the carrier, in one configuration, will offer per-user data speeds of 5 to 12 megabits per second (Mbps). The system will support video sharing, surveillance, conferencing and streaming. The story runs through the other advantages that Verizon Wireless is touting, and some of the challenges to older technologies that it supposedly alleviates.

The interesting thing is that LTE and WiMax are fairly close from the technical point of view. That means that it is theoretically possible for differences to be overcome and competition to become a thing of the past. While possible, it is thought unlikely:

On one hand, the battle for the future of 4G between LTE and WiMax will be fully joined. However, both are IP-based and use Orthogonal Frequency Division Multiplexing (OFDM) and, experts say, are relatively close on the telecommunications family tree. Indeed, the biggest difference may concern the other IP: intellectual property. Despite the maneuvering today, it is possible that in a few years the two will blend together.

The next year or so will be a good deal of fun for folks who like mano-a-mano competition, price pressure, glitzy ads -- and high-speed wireless networks. At the end of the day, it almost certainly is destined to end up as expected:

LTE will be the top dog, with WiMax a strong supporting player.

WiMax vs. LTE: Which Will 'Win' in a Fast Deployment Cycle?

One of the biggest stories during the next year or so will be the rollout and subsequent marketing of 4G wireless networks.

It will be an interesting process as the two approaches – Long Term Evolution (LTE) and WiMax – vie for supremacy. The die already seems to be cast, however: WiMax, through Clearwire and its Clear service, is first out of the gate. LTE, however, through its use by Verizon and AT&T, seems positioned to be the dominant player when the dust settles.

WiMax suffered a bit of a blow earlier this month when Cisco decided not to build radios for the platform:

Technology is not an either/or game.The Cisco move clearly is not good news for WiMax, both in terms of image and because the vendor brings a lot to any table at which it chooses to sit. It’s also clear that WiMax will not be as big as LTE. All that said, however, it is apparent that WiMax remains a significant wireless networking force.

It is important to remember that the platform that comes in second in such a massive market will still be very successful. There are, for instance, secondary and specialty niches:

…WiMax is making strides with at least one significant niche category: smart grid networking. Earth2Tech reports that startup Arcadian Networks has released the AE20r gateway, a WiMax-focused device. The story says that Arcadian, which owns spectrum in the middle of the country, sells smart grid services to utilities. The story notes other vendors in the smart grid/WiMax arena, including Grid Net, General Electric, Alvarion and National Grid.

To be sure, Clearwire is not backing down:

Clearwire seems to be at the center of cable’s move to mobilize voice and advanced mobilized applications. FierceWireless, in a general report about Clearwire’s progress, said that the company plans to introduce a WiMax-enabled smartphone during 2010. The aim, according to CEO Bill Morrow, is to have the device in the field during the second half of the year. The story says that Sprint is planning 3G/4G phones, also by the end of 2010.

On the other side of town -- or of the R&D lab hallway -- is LTE. While WiMax was first out of the gate, the LTE sector is making up for lost time:

The LTE trial and test phase is white hot.

Driven by the increase in demand caused by fixed-rate data plans, coupled with the popularity of the iPhone and other advanced devices, the pace of testing of one of the two flavors of 4G technology, Long Term Evolution (LTE), is accelerating.

LTE is particularly active on the international front. ABI Research says that as of the end of September, 100 mobile networks were holding trials or were set to start. More than 40 of the trials are ongoing in the Asia-Pacific region – led by Japan and South Korea, with 33 contracts awarded. ABI Research says that though the first networks won’t start commercial operation until the end of next year, a robust 32.6 million subscribers will be served by LTE by 2013. The pressure is so great that many operators are taking the interim step of upgrading 3G networks to High Speed Packet Access (HSPA) status.

The stage was set once AT&T and, especially, Verizon made their choices:

Details are emerging on Verizon Wireless’s LTE rollout. Softpedia reports that the carrier, in one configuration, will offer per-user data speeds of 5 to 12 megabits per second (Mbps). The system will support video sharing, surveillance, conferencing and streaming. The story runs through the other advantages that Verizon Wireless is touting, and some of the challenges to older technologies that it supposedly alleviates.

The interesting thing is that LTE and WiMax are fairly close from the technical point of view. That means that it is theoretically possible for differences to be overcome and competition to become a thing of the past. While possible, it is thought unlikely:

On one hand, the battle for the future of 4G between LTE and WiMax will be fully joined. However, both are IP-based and use Orthogonal Frequency Division Multiplexing (OFDM) and, experts say, are relatively close on the telecommunications family tree. Indeed, the biggest difference may concern the other IP: intellectual property. Despite the maneuvering today, it is possible that in a few years the two will blend together.

The next year or so will be a good deal of fun for folks who like mano-a-mano competition, price pressure, glitzy ads -- and high-speed wireless networks. At the end of the day, it almost certainly is destined to end up as expected:

LTE will be the top dog, with WiMax a strong supporting player.

WiMax vs. LTE: Which Will 'Win' in a Fast Deployment Cycle?

One of the biggest stories during the next year or so will be the rollout and subsequent marketing of 4G wireless networks.

It will be an interesting process as the two approaches – Long Term Evolution (LTE) and WiMax – vie for supremacy. The die already seems to be cast, however: WiMax, through Clearwire and its Clear service, is first out of the gate. LTE, however, through its use by Verizon and AT&T, seems positioned to be the dominant player when the dust settles.

WiMax suffered a bit of a blow earlier this month when Cisco decided not to build radios for the platform:

Technology is not an either/or game.The Cisco move clearly is not good news for WiMax, both in terms of image and because the vendor brings a lot to any table at which it chooses to sit. It’s also clear that WiMax will not be as big as LTE. All that said, however, it is apparent that WiMax remains a significant wireless networking force.

It is important to remember that the platform that comes in second in such a massive market will still be very successful. There are, for instance, secondary and specialty niches:

…WiMax is making strides with at least one significant niche category: smart grid networking. Earth2Tech reports that startup Arcadian Networks has released the AE20r gateway, a WiMax-focused device. The story says that Arcadian, which owns spectrum in the middle of the country, sells smart grid services to utilities. The story notes other vendors in the smart grid/WiMax arena, including Grid Net, General Electric, Alvarion and National Grid.

To be sure, Clearwire is not backing down:

Clearwire seems to be at the center of cable’s move to mobilize voice and advanced mobilized applications. FierceWireless, in a general report about Clearwire’s progress, said that the company plans to introduce a WiMax-enabled smartphone during 2010. The aim, according to CEO Bill Morrow, is to have the device in the field during the second half of the year. The story says that Sprint is planning 3G/4G phones, also by the end of 2010.

On the other side of town -- or of the R&D lab hallway -- is LTE. While WiMax was first out of the gate, the LTE sector is making up for lost time:

The LTE trial and test phase is white hot.

Driven by the increase in demand caused by fixed-rate data plans, coupled with the popularity of the iPhone and other advanced devices, the pace of testing of one of the two flavors of 4G technology, Long Term Evolution (LTE), is accelerating.

LTE is particularly active on the international front. ABI Research says that as of the end of September, 100 mobile networks were holding trials or were set to start. More than 40 of the trials are ongoing in the Asia-Pacific region – led by Japan and South Korea, with 33 contracts awarded. ABI Research says that though the first networks won’t start commercial operation until the end of next year, a robust 32.6 million subscribers will be served by LTE by 2013. The pressure is so great that many operators are taking the interim step of upgrading 3G networks to High Speed Packet Access (HSPA) status.

The stage was set once AT&T and, especially, Verizon made their choices:

Details are emerging on Verizon Wireless’s LTE rollout. Softpedia reports that the carrier, in one configuration, will offer per-user data speeds of 5 to 12 megabits per second (Mbps). The system will support video sharing, surveillance, conferencing and streaming. The story runs through the other advantages that Verizon Wireless is touting, and some of the challenges to older technologies that it supposedly alleviates.

The interesting thing is that LTE and WiMax are fairly close from the technical point of view. That means that it is theoretically possible for differences to be overcome and competition to become a thing of the past. While possible, it is thought unlikely:

On one hand, the battle for the future of 4G between LTE and WiMax will be fully joined. However, both are IP-based and use Orthogonal Frequency Division Multiplexing (OFDM) and, experts say, are relatively close on the telecommunications family tree. Indeed, the biggest difference may concern the other IP: intellectual property. Despite the maneuvering today, it is possible that in a few years the two will blend together.

The next year or so will be a good deal of fun for folks who like mano-a-mano competition, price pressure, glitzy ads -- and high-speed wireless networks. At the end of the day, it almost certainly is destined to end up as expected:

LTE will be the top dog, with WiMax a strong supporting player.

The Future of 4G: LTE vs. WiMAX

LTE, the 4G mobile broadband technology backed by major cellular network equipment providers and operators, casts a long shadow across the WiMAX landscape—even though LTE products are thin on the ground and no operator has launched commercial service using it.

Verizon, however, has committed to rolling out LTE (Long Term Evolution)... (in joking mode they called it as "LTE: Late to Evolve") starting next year, delivering ten times the data throughput of current 3G technologies. Others, including NTT DoCoMo in Japan, France Telecom, Vodafone in the UK, AT&T, and T-Mobile, have also said they will adopt LTE rather than WiMAX.

Meanwhile, Sprint, Clearwire, and Comcast in the U.S., UQ Communications in Japan, and Yota in Russia are all aggressively rolling out mobile-capable “4G” networks using the current version of WiMAX, 802.16e (2 to 10 Mbps), in urban markets where they will inevitably compete with 3G (and later, LTE) providers.

The WiMAX Forum claims that 504 operators in 145 countries have deployed WiMAX, but many use older 802.16d technology that cannot provide mobile services, and many are small operators in developing countries or rural regions.

How will the market unfold? Are LTE and WiMAX on a collision course? If so, which will prevail. Or will the two technologies co-exist, even complement each other? The answers are far from clear, and depend to a large extent on who you ask.

Defining “4G”

The ITU, the International Telecommunications Union, is developing specifications for 4G mobile. Neither WiMAX, 802.16e, nor the current LTE standard, revision 8, meet basic preliminary objectives for 4G, said Phillip Redman, a vice president of research at consulting and analyst firm Gartner Inc.
Sprint and Clearwire’s use of the term 4G to describe their 802.16e technology does not reflect adherence to international standards, Redman pointed out. It refers to the fact that this is the fourth generation of mobile wireless technology deployed in North America.

How and when either camp will deliver a standard that does meet the yet-to-be-finalized ITU specs remains to be seen. It is anticipated that LTE will get there with revision 10 and WiMAX with a projected 802.16m. Estimates of when equipment based on these advanced standards will appear ranges from 2011 to 2015.

Despite the similarities of the two technologies, and despite suggestions from some that the two camps are notnecessarily on a collision course, discourse between and around them can get heated.    

In this corner

Redman wrote in a report last year, "WiMAX drives the hype for 4G, but LTE will be the dominant standard," A WiMAX skeptic and a perceived thorn in the industry’s side, he believes LTE’s dominance is not a question of technological superiority or even cost, but of market politics.

“Politics rules everything,” he said, explaining the reasons so many major mobile operators chose LTE rather than WiMAX as their upgrade path to 4G.

Those operators—Verizon, AT&T, NTT, et al—didn’t really choose the technology, Redman believes. They chose their suppliers: Ericsson and Nokia, tried-and-true Tier 1 mobile infrastructure equipment manufacturers that had decided not to back WiMAX.

If operators wanted to go with WiMAX, they had to bet on smaller Tier 2 suppliers, such as Motorola, Alcatel-Lucent, and Alvarion. “It’s all about who you feel most comfortable with,” Redman said. Better the devil you know?

The Tier 1 suppliers, in turn, backed LTE over WiMAX because they saw that, for a variety of reasons, they could make more profit selling LTE. “In many cases, it was more a political decision than one based on technology or cost,” he said.

Redman has reportedly gone as far as urging businesses to hold off on investing in WiMAX, at least until the equipment ecosystem evolves to make dual-mode 3G-WiMAX devices more readily available.
This enraged some elements in the WiMAX camp. One Intel blogger characterized Gartner’s analysis of the market as “the most recent attempt at ‘drive-by kneecapping’” of the technology.

When we repeated to Proulx Redman’s suggestion that WiMAX vs. LTE might be analogous in some ways to the showdown between VHS and Betamax video cassette formats in the 1970s—with WiMAX taking the doomed Betamax role—her response was blunt.

“It’s a silly analogy and it’s unfortunate it’s been repeated so often,” she said. Proulx noted that Betamax was a proprietary technology, backed by one supplier (Sony) and was more expensive than its competitor—none of which is remotely true of WiMAX.

Proulx was similarly direct in responding to Redman’s suggestion that 802.16m is a more uncertain proposition than LTE Rev 10 and may not even be backward compatible to 802.16e. “From day one,” she said, “the first [design] requirement [for 802.16m] was that it be fully backward compatible. I think you’ll see evidence of that very soon.”

Chua apparently does not raise the ire of the WiMAX community to the same extent as Redman, but his perspective is not so different.

IDC believes operators rarely have made or will make either/or choices between LTE and WiMAX. More often, decisions will be made for them because only one technology or the other can meet all their needs—given time-to-market, desired business model, and other considerations.

“We characterize WiMAX and LTE as two circles that overlap,” Chua said. “Inevitably there will be some competition, but competition is not the overriding market scenario. It’s not what defines those two markets.”

Going to market

That said, he too believes WiMAX will have a tough time overcoming market factors arrayed against it. He argues that LTE will be building from a customer base of 4.6 billion mobile users worldwide, while WiMAX mainly has appeal as a replacement for DSL, especially in developing markets where wireline broadband technologies are not available. It will be building from a much smaller base: fewer than a billion customers worldwide.

IDC will publish a forecast later this year showing sales of LTE equipment surpassing WiMAX equipment sales some time in 2012.

But it  may not be as simple as 3G mobile users in developed markets sticking with their current providers and waiting for LTE (because of LTE is "Late To Evolve"), while WiMAX is relegated to a niche role delivering portable rather than mobile service in developing countries and rural regions.

For one thing, the WiMAX camp believes the momentum it’s currently building in those developing markets will drive development of an ecosystem, help harden the technology—and put it in good position to be a full competitor in the 4G mobile market down the road.

Indeed, the fact that WiMAX lets operators in those markets start small and build businesses organically without investing billions of dollars is one of its key advantages over LTE, Proulx said. Operators may start by providing DSL replacement services, but can easily evolve to offering true mobile services when they have the breadth of coverage and market demand.

And then there are the implications of exceptional initiatives in more developed markets—Clearwire in the U.S., Yota in Russian, UQ in Japan. Yota is currently signing up 2,000 new subscribers a month in St. Petersburg and Moscow and already has 200,000 since launching last fall, Proulx said.

While Clearwire has been slow to introduce WiMAX-powered phones or dual-mode 3G-WiMAX phones that would help it attract customers away from 3G providers, Yota is already building much of its marketing around a dual-mode device from HTC.

Most observers agree that the winners in the 4G market will be those that offer the widest coverage, the most reliable service and the best choice of devices. Redman is skeptical Clearwire can build its network out quickly enough to give it the breadth of coverage needed to attract 3G customers. The company will need another big infusion of capital next year just to continue its current pace, he added.

But Proulx believes WiMAX can compete with 3G operators, if not immediately in the U.S. then soon—and perhaps sooner in Japan. There, she said, UQ expects to have 90% of the Japanese population covered by its network by the end of 2010. If true, that would be before NTT is even out of the gate with LTE.

Redman and Chua may be underestimating the market strength of WiMAX—or not. Either way, no one is seriously suggesting it will be blown out of the water by LTE. The two will co-exist, whether or not peacefully remains to be seen.

Indeed, the picture is unclear and may be no clearer until 2011 when commercial services using both will be available in the U.S. and elsewhere. Stay tuned.

The Future of 4G: LTE vs. WiMAX

LTE, the 4G mobile broadband technology backed by major cellular network equipment providers and operators, casts a long shadow across the WiMAX landscape—even though LTE products are thin on the ground and no operator has launched commercial service using it.

Verizon, however, has committed to rolling out LTE (Long Term Evolution)... (in joking mode they called it as "LTE: Late to Evolve") starting next year, delivering ten times the data throughput of current 3G technologies. Others, including NTT DoCoMo in Japan, France Telecom, Vodafone in the UK, AT&T, and T-Mobile, have also said they will adopt LTE rather than WiMAX.

Meanwhile, Sprint, Clearwire, and Comcast in the U.S., UQ Communications in Japan, and Yota in Russia are all aggressively rolling out mobile-capable “4G” networks using the current version of WiMAX, 802.16e (2 to 10 Mbps), in urban markets where they will inevitably compete with 3G (and later, LTE) providers.

The WiMAX Forum claims that 504 operators in 145 countries have deployed WiMAX, but many use older 802.16d technology that cannot provide mobile services, and many are small operators in developing countries or rural regions.

How will the market unfold? Are LTE and WiMAX on a collision course? If so, which will prevail. Or will the two technologies co-exist, even complement each other? The answers are far from clear, and depend to a large extent on who you ask.

Defining “4G”

The ITU, the International Telecommunications Union, is developing specifications for 4G mobile. Neither WiMAX, 802.16e, nor the current LTE standard, revision 8, meet basic preliminary objectives for 4G, said Phillip Redman, a vice president of research at consulting and analyst firm Gartner Inc.
Sprint and Clearwire’s use of the term 4G to describe their 802.16e technology does not reflect adherence to international standards, Redman pointed out. It refers to the fact that this is the fourth generation of mobile wireless technology deployed in North America.

How and when either camp will deliver a standard that does meet the yet-to-be-finalized ITU specs remains to be seen. It is anticipated that LTE will get there with revision 10 and WiMAX with a projected 802.16m. Estimates of when equipment based on these advanced standards will appear ranges from 2011 to 2015.

Despite the similarities of the two technologies, and despite suggestions from some that the two camps are notnecessarily on a collision course, discourse between and around them can get heated.    

In this corner

Redman wrote in a report last year, "WiMAX drives the hype for 4G, but LTE will be the dominant standard," A WiMAX skeptic and a perceived thorn in the industry’s side, he believes LTE’s dominance is not a question of technological superiority or even cost, but of market politics.

“Politics rules everything,” he said, explaining the reasons so many major mobile operators chose LTE rather than WiMAX as their upgrade path to 4G.

Those operators—Verizon, AT&T, NTT, et al—didn’t really choose the technology, Redman believes. They chose their suppliers: Ericsson and Nokia, tried-and-true Tier 1 mobile infrastructure equipment manufacturers that had decided not to back WiMAX.

If operators wanted to go with WiMAX, they had to bet on smaller Tier 2 suppliers, such as Motorola, Alcatel-Lucent, and Alvarion. “It’s all about who you feel most comfortable with,” Redman said. Better the devil you know?

The Tier 1 suppliers, in turn, backed LTE over WiMAX because they saw that, for a variety of reasons, they could make more profit selling LTE. “In many cases, it was more a political decision than one based on technology or cost,” he said.

Redman has reportedly gone as far as urging businesses to hold off on investing in WiMAX, at least until the equipment ecosystem evolves to make dual-mode 3G-WiMAX devices more readily available.
This enraged some elements in the WiMAX camp. One Intel blogger characterized Gartner’s analysis of the market as “the most recent attempt at ‘drive-by kneecapping’” of the technology.

When we repeated to Proulx Redman’s suggestion that WiMAX vs. LTE might be analogous in some ways to the showdown between VHS and Betamax video cassette formats in the 1970s—with WiMAX taking the doomed Betamax role—her response was blunt.

“It’s a silly analogy and it’s unfortunate it’s been repeated so often,” she said. Proulx noted that Betamax was a proprietary technology, backed by one supplier (Sony) and was more expensive than its competitor—none of which is remotely true of WiMAX.

Proulx was similarly direct in responding to Redman’s suggestion that 802.16m is a more uncertain proposition than LTE Rev 10 and may not even be backward compatible to 802.16e. “From day one,” she said, “the first [design] requirement [for 802.16m] was that it be fully backward compatible. I think you’ll see evidence of that very soon.”

Chua apparently does not raise the ire of the WiMAX community to the same extent as Redman, but his perspective is not so different.

IDC believes operators rarely have made or will make either/or choices between LTE and WiMAX. More often, decisions will be made for them because only one technology or the other can meet all their needs—given time-to-market, desired business model, and other considerations.

“We characterize WiMAX and LTE as two circles that overlap,” Chua said. “Inevitably there will be some competition, but competition is not the overriding market scenario. It’s not what defines those two markets.”

Going to market

That said, he too believes WiMAX will have a tough time overcoming market factors arrayed against it. He argues that LTE will be building from a customer base of 4.6 billion mobile users worldwide, while WiMAX mainly has appeal as a replacement for DSL, especially in developing markets where wireline broadband technologies are not available. It will be building from a much smaller base: fewer than a billion customers worldwide.

IDC will publish a forecast later this year showing sales of LTE equipment surpassing WiMAX equipment sales some time in 2012.

But it  may not be as simple as 3G mobile users in developed markets sticking with their current providers and waiting for LTE (because of LTE is "Late To Evolve"), while WiMAX is relegated to a niche role delivering portable rather than mobile service in developing countries and rural regions.

For one thing, the WiMAX camp believes the momentum it’s currently building in those developing markets will drive development of an ecosystem, help harden the technology—and put it in good position to be a full competitor in the 4G mobile market down the road.

Indeed, the fact that WiMAX lets operators in those markets start small and build businesses organically without investing billions of dollars is one of its key advantages over LTE, Proulx said. Operators may start by providing DSL replacement services, but can easily evolve to offering true mobile services when they have the breadth of coverage and market demand.

And then there are the implications of exceptional initiatives in more developed markets—Clearwire in the U.S., Yota in Russian, UQ in Japan. Yota is currently signing up 2,000 new subscribers a month in St. Petersburg and Moscow and already has 200,000 since launching last fall, Proulx said.

While Clearwire has been slow to introduce WiMAX-powered phones or dual-mode 3G-WiMAX phones that would help it attract customers away from 3G providers, Yota is already building much of its marketing around a dual-mode device from HTC.

Most observers agree that the winners in the 4G market will be those that offer the widest coverage, the most reliable service and the best choice of devices. Redman is skeptical Clearwire can build its network out quickly enough to give it the breadth of coverage needed to attract 3G customers. The company will need another big infusion of capital next year just to continue its current pace, he added.

But Proulx believes WiMAX can compete with 3G operators, if not immediately in the U.S. then soon—and perhaps sooner in Japan. There, she said, UQ expects to have 90% of the Japanese population covered by its network by the end of 2010. If true, that would be before NTT is even out of the gate with LTE.

Redman and Chua may be underestimating the market strength of WiMAX—or not. Either way, no one is seriously suggesting it will be blown out of the water by LTE. The two will co-exist, whether or not peacefully remains to be seen.

Indeed, the picture is unclear and may be no clearer until 2011 when commercial services using both will be available in the U.S. and elsewhere. Stay tuned.

The Future of 4G: LTE vs. WiMAX

LTE, the 4G mobile broadband technology backed by major cellular network equipment providers and operators, casts a long shadow across the WiMAX landscape—even though LTE products are thin on the ground and no operator has launched commercial service using it.

Verizon, however, has committed to rolling out LTE (Long Term Evolution)... (in joking mode they called it as "LTE: Late to Evolve") starting next year, delivering ten times the data throughput of current 3G technologies. Others, including NTT DoCoMo in Japan, France Telecom, Vodafone in the UK, AT&T, and T-Mobile, have also said they will adopt LTE rather than WiMAX.

Meanwhile, Sprint, Clearwire, and Comcast in the U.S., UQ Communications in Japan, and Yota in Russia are all aggressively rolling out mobile-capable “4G” networks using the current version of WiMAX, 802.16e (2 to 10 Mbps), in urban markets where they will inevitably compete with 3G (and later, LTE) providers.

The WiMAX Forum claims that 504 operators in 145 countries have deployed WiMAX, but many use older 802.16d technology that cannot provide mobile services, and many are small operators in developing countries or rural regions.

How will the market unfold? Are LTE and WiMAX on a collision course? If so, which will prevail. Or will the two technologies co-exist, even complement each other? The answers are far from clear, and depend to a large extent on who you ask.

Defining “4G”

The ITU, the International Telecommunications Union, is developing specifications for 4G mobile. Neither WiMAX, 802.16e, nor the current LTE standard, revision 8, meet basic preliminary objectives for 4G, said Phillip Redman, a vice president of research at consulting and analyst firm Gartner Inc.
Sprint and Clearwire’s use of the term 4G to describe their 802.16e technology does not reflect adherence to international standards, Redman pointed out. It refers to the fact that this is the fourth generation of mobile wireless technology deployed in North America.

How and when either camp will deliver a standard that does meet the yet-to-be-finalized ITU specs remains to be seen. It is anticipated that LTE will get there with revision 10 and WiMAX with a projected 802.16m. Estimates of when equipment based on these advanced standards will appear ranges from 2011 to 2015.

Despite the similarities of the two technologies, and despite suggestions from some that the two camps are notnecessarily on a collision course, discourse between and around them can get heated.    

In this corner

Redman wrote in a report last year, "WiMAX drives the hype for 4G, but LTE will be the dominant standard," A WiMAX skeptic and a perceived thorn in the industry’s side, he believes LTE’s dominance is not a question of technological superiority or even cost, but of market politics.

“Politics rules everything,” he said, explaining the reasons so many major mobile operators chose LTE rather than WiMAX as their upgrade path to 4G.

Those operators—Verizon, AT&T, NTT, et al—didn’t really choose the technology, Redman believes. They chose their suppliers: Ericsson and Nokia, tried-and-true Tier 1 mobile infrastructure equipment manufacturers that had decided not to back WiMAX.

If operators wanted to go with WiMAX, they had to bet on smaller Tier 2 suppliers, such as Motorola, Alcatel-Lucent, and Alvarion. “It’s all about who you feel most comfortable with,” Redman said. Better the devil you know?

The Tier 1 suppliers, in turn, backed LTE over WiMAX because they saw that, for a variety of reasons, they could make more profit selling LTE. “In many cases, it was more a political decision than one based on technology or cost,” he said.

Redman has reportedly gone as far as urging businesses to hold off on investing in WiMAX, at least until the equipment ecosystem evolves to make dual-mode 3G-WiMAX devices more readily available.
This enraged some elements in the WiMAX camp. One Intel blogger characterized Gartner’s analysis of the market as “the most recent attempt at ‘drive-by kneecapping’” of the technology.

When we repeated to Proulx Redman’s suggestion that WiMAX vs. LTE might be analogous in some ways to the showdown between VHS and Betamax video cassette formats in the 1970s—with WiMAX taking the doomed Betamax role—her response was blunt.

“It’s a silly analogy and it’s unfortunate it’s been repeated so often,” she said. Proulx noted that Betamax was a proprietary technology, backed by one supplier (Sony) and was more expensive than its competitor—none of which is remotely true of WiMAX.

Proulx was similarly direct in responding to Redman’s suggestion that 802.16m is a more uncertain proposition than LTE Rev 10 and may not even be backward compatible to 802.16e. “From day one,” she said, “the first [design] requirement [for 802.16m] was that it be fully backward compatible. I think you’ll see evidence of that very soon.”

Chua apparently does not raise the ire of the WiMAX community to the same extent as Redman, but his perspective is not so different.

IDC believes operators rarely have made or will make either/or choices between LTE and WiMAX. More often, decisions will be made for them because only one technology or the other can meet all their needs—given time-to-market, desired business model, and other considerations.

“We characterize WiMAX and LTE as two circles that overlap,” Chua said. “Inevitably there will be some competition, but competition is not the overriding market scenario. It’s not what defines those two markets.”

Going to market

That said, he too believes WiMAX will have a tough time overcoming market factors arrayed against it. He argues that LTE will be building from a customer base of 4.6 billion mobile users worldwide, while WiMAX mainly has appeal as a replacement for DSL, especially in developing markets where wireline broadband technologies are not available. It will be building from a much smaller base: fewer than a billion customers worldwide.

IDC will publish a forecast later this year showing sales of LTE equipment surpassing WiMAX equipment sales some time in 2012.

But it  may not be as simple as 3G mobile users in developed markets sticking with their current providers and waiting for LTE (because of LTE is "Late To Evolve"), while WiMAX is relegated to a niche role delivering portable rather than mobile service in developing countries and rural regions.

For one thing, the WiMAX camp believes the momentum it’s currently building in those developing markets will drive development of an ecosystem, help harden the technology—and put it in good position to be a full competitor in the 4G mobile market down the road.

Indeed, the fact that WiMAX lets operators in those markets start small and build businesses organically without investing billions of dollars is one of its key advantages over LTE, Proulx said. Operators may start by providing DSL replacement services, but can easily evolve to offering true mobile services when they have the breadth of coverage and market demand.

And then there are the implications of exceptional initiatives in more developed markets—Clearwire in the U.S., Yota in Russian, UQ in Japan. Yota is currently signing up 2,000 new subscribers a month in St. Petersburg and Moscow and already has 200,000 since launching last fall, Proulx said.

While Clearwire has been slow to introduce WiMAX-powered phones or dual-mode 3G-WiMAX phones that would help it attract customers away from 3G providers, Yota is already building much of its marketing around a dual-mode device from HTC.

Most observers agree that the winners in the 4G market will be those that offer the widest coverage, the most reliable service and the best choice of devices. Redman is skeptical Clearwire can build its network out quickly enough to give it the breadth of coverage needed to attract 3G customers. The company will need another big infusion of capital next year just to continue its current pace, he added.

But Proulx believes WiMAX can compete with 3G operators, if not immediately in the U.S. then soon—and perhaps sooner in Japan. There, she said, UQ expects to have 90% of the Japanese population covered by its network by the end of 2010. If true, that would be before NTT is even out of the gate with LTE.

Redman and Chua may be underestimating the market strength of WiMAX—or not. Either way, no one is seriously suggesting it will be blown out of the water by LTE. The two will co-exist, whether or not peacefully remains to be seen.

Indeed, the picture is unclear and may be no clearer until 2011 when commercial services using both will be available in the U.S. and elsewhere. Stay tuned.