Andrew Seybold - The Rush to 4G
Over the next year, we will be hearing more about the network operators' move to 4G all over the world. I see the shift to 4G as inevitable, but does it need to happen as soon as LTE, for example, is finalized and the first equipment is built? We are hearing wonderful things about LTE, but the data rates and capacity increases being bandied about are theoretical and based on using 20 MHz of spectrum.
One reason the WiMAX community can claim data speed and capacity gains over today's EV-DO Rev A and UMTS/HSPA is due to the amount of bandwidth it uses. EV-DO Rev A occupies only 1.25 MHz of spectrum per carrier and UMTS/HSPA occupies 5 MHz per carrier. The WiMAX community is basing its claims on bandwidths of 8 MHz or more. If you normalize these three technologies in 10 MHz of spectrum, you find they offer about the same data rates and capacity.
Not many network operators have 20 MHz of contiguous spectrum to use for LTE, but LTE can run in any amount of spectrum from 1.25 MHz up to 20 MHz so it will fit almost anywhere. The caveat is that when LTE is used in less than 20 MHz of spectrum, data speeds and capacity are lower than the published specifications and, in most cases, are about the same as the next revisions of UMTS/HSPA+ and EV-DO Rev B (second release). Thus, I wonder why there is a rush to LTE instead of continuing with the enhancements to HSPA and EV-DO. If you put LTE in the A and B Blocks of the just-auctioned 700-MHZ spectrum, you are using 6 MHz by 6 MHz, which is a long way from 20 MHz of spectrum. When you look at what else can be done with this spectrum, you find that you can deploy four or five carriers of EV-DO or one carrier of UMTS/HSPA or LTE (depending on guard bands).
If you look at the data speeds and capacity of all three of these technologies in 10 MHz of spectrum, you will find that LTE has only a slight advantage (10 percent or less). Verizon, with its C Block holdings of 11 MHz by 11 MHz of spectrum, fairs better with LTE but not as much as is being claimed by LTE promoters. As with any new technology, it will take time to get the bugs out and it will be more expensive to deploy.
A lot of the rush to move to LTE is because of the "threat" of WiMAX and WiMAX proponents' claims about high-data speeds and lots of capacity. We are about to learn the truth about WiMAX as the Sprint portion of the new Clearwire network is turned on and independent tests are conducted. For an idea of what is in store for us, go to the WiMAX Forum website (http://www.wimaxforum.org/technology/) where you can read the following statement: "Mobile network deployments are expected to provide up to 15 Mbps of capacity within a typical cell radius deployment of up to three kilometers." If you compare both of the 3G standards deployed today, you will see that there is virtually no difference in total data capacity available per cell sector or cell site.
Perhaps the commercial wireless community is rushing headlong into 4G when it should be continuing to deploy the next revisions of 3G and watching LTE. But most network infrastructure companies would not be happy with this since many of the revisions for the 3G networks are software upgrades and not nearly as expensive as the upgrade to LTE.
The race is on. NTT DoCoMo has fully committed to being the first LTE network operator and others are raising their hands. But like any new technology, it will take years to fully build out on a nationwide basis. The best we will see over the next three to four years is LTE deployed where there is a high demand for data services, and I don't believe we will see anything like a nationwide network in the United States until 2014 or 2015.
Network operators are trying to attract more customers to their broadband data networks and are still rolling out coverage in some areas. If I were a network operator, I would stay with 3G and implement the new revisions as they become available. I would let LTE technology and pricing mature before I made up my mind to deploy it, especially in less than the 20 MHz of spectrum on which today's specifications, including data speed and capacity, are being calculated.
Don't get me wrong, I believe in LTE and next-generation technology. But I also believe in making money and that the best way for networks to do that is to let demand drive them to LTE, not competition from WiMAX or wanting to be the first kid on the block with LTE.
Andrew Seybold is an authority on technology and trends shaping the world of wireless mobility. A respected analyst, consultant, commentator, author and active participant in industry trade organizations, his views have influenced strategies and shaped initiatives for telecom, mobile computing and wireless industry leaders worldwide. www.andrewseybold.com
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Comments
By GaryD | Posted 2:03am | August 6, 2008
I think that we will find that the rush to LTE is really being driven by the CDMA carriers. They have come to recognize the need to move to the GSM camp to attain competitive network and device volume based benefits. For them, it is a question of whether they take two steps - HSPA+ then LTE or one rushed step to LTE.
The longer they wait the greater the competitive risk. Especially now that many have signaled a move to GSM. The CDMA handset vendors will slow down their CDMA handset development efforts even further.
GaryD
www.cell-canada.com
By Anonymous | Posted 11:44am | August 6, 2008
Andrew seems to make the very common mistake of amalgamating peak data rate and average sector througput.
LTE spectral efficiency on peak data rate is not that different from existing 3.5G technologies (ref. to Shanon's theorem).
Where LTE excels is in sector throughput spectal efficiency where LTE shows about a 2-4x improvement compared to 3.5G technologies in the same 2x5MHZ spectrum bandwidth and will result in much better and consistent user experience thourghout the cell.
LTE spectral only drops by about 10-15% in spectrum bandwidth lower than 5MHz (1.4MHz and 3MHz) but still provide a significant improvement compared to existing technologies.
This improvement in capacity and resulting lower cost per bit is one of the key reason driving operators to deploy 4G.
One of the other factors that will affect user experience that was not mentionned in the article, is the low latency of LTE (<12ms roundtrip). As a comparison, on existing 3.5G networks, once the user goes in active state (close to 1 sec to do so) the roundtrip latency is ~ 50-100ms and this is very noticeable when doing Web browsing, online gaming, VoIP, etc...
By Andy Seybold | Posted 8:46am | August 7, 2008
You are correct about the spectrial efficency of LTE VS HSPA and EV-DO Rev A, but the differences will be signicantly reduced when EV-DO Rev B (phase II) and HSPA+ are released into the market shortly, both address the edge of cell issues and others, I did not say that LTE did not have its place in the world, only that there is a lot of life left in 3G with EV-DO Rev B and HSPA+ and these upgrades are a lot cheaper than adding LTE--and suggest that they should be looked at carefully before just jumping to LTE--and as for moving to LTE because it is a world standard, we already have world phones and, again, LTE will be used ONLY in areas where the demand for data is very high,not in entire networks for many years, my guess is still 2014 or 2015 before any Country has what could be considered a national foot-print, so we will be living in a LTE/backward compatible world for a very long time. The people who push for a common, world-wide standard don't believe, as I do, that having multiple standards has actually driven prices for devices and services down faster than if there were one common world standard, market driven competition is always the best solution.
Andy
By Willie Lu | Posted 6:41pm | August 7, 2008
LTE can be 4G, but 4G is not LTE. Based on global movement trend, 4G is based on Open Wireless Architecture (OWA) platform in converging multiple diffetent air-interfaces in more cost-effective and clean ways. See 4GMF.org for more. Over 50 industries are driving this 4GMF program.
By Anonymous | Posted 4:21pm | August 8, 2008
Andy, just give WiMAX a chance! The entrenched cellular camps could use some competition. There is a reason they have 50-60% gross margins. WiMAX technology will enable new breend of entrants into this wireless club world-wide.