LTE: 3G or 4G?

Continuing the discussion from LTE World Summit:

Adrian Scrase, Chief technical officer, 3GPP, France threw light on the topic which I have mentioned many times in my blog. I have always maintained that LTE can be called 3.9G but media and some other presenters have always been referring to it as 4G. Here is a slide from his presentation on his topic.
I think now when LTE-Advanced and IMT-Advanced comes, it will no longer be referred to as 4G/5G/6G. Someone will have to come up with some clever new term :)

“Your Wireless Future” at “Tomorrow’s Wireless World”

This one is from Chetan Sharma's blog (via Forox). The following is an extract from his blog:

Earlier this week, I had the distinct honor of moderating a panel of some of the most eminent senior wireless research scientists and CEOs of wireless companies from Finland where we explored the future of the wireless landscape from user interface to reduction in carbon footprint to privacy and security issues and much more.

Many people might not be aware but the City of Oulu in the central part of Finland is a leading epicenter of wireless activities with many major industry players setting up shops for doing R&D work. In fact, it is quite likely that one of the companies out of Oulu has had an impact in some way on the mobile phone you have in your pocket (and we are not including Nokia).

The topic of our panel was “Your Wireless Future” – a broad topic that is always difficult to cover in 60 minutes or less.

I started by asking the panelists about what in their view have been some of the defining trends over the last 12 months. Summary of answers – iPhone; android; move towards full mobile browser; browser will reduce fragmentation and more innovation will happen on this front; with the rise of smartphones, security and privacy have become an issue,

Some other salient points (read issues and opportunities) from the discussion:

• It is forecasted (by WWWRF) that in another 10 years, we will have 1000 radios per every subscriber. That would translate into few trillion nodes around us. The level of complexity and carbon footprint will be enormous. One has to figure out a way to address both.
• City of Oulu has first of a kind experiment with NFC where the technology has been embedded in day-to-day life from home, school, train station, restaurant, probably every object in the city. Pretty interesting experiment that will lead to interesting use cases and technology implementations.
• There are so many protocols being integrated into the device that hackers are targeting not only the data but the protocol weaknesses to gain access. IT finally starting to address smartphone issue in their networks.
• The role of Cognitive radio and SDRs will gain prominence as more access technologies get introduced.
• In a ubiquitous environment with finite spectrum, “sensing” technologies will have a great role in optimization. Sense and do the best for the consumer, the device, and the network. Hyper connectivity will become the norm.
• In addition to touch, gesture and face recognition will add to a better multimodal experience.
• Mobile payments is coming and going to make a big impact. We have to of course sort out the business models.
• 3Cs of mobile – convergence, context, and community (Nokia’s Mantra).
• The very business of R&D has changed significantly with corporations choosing to outsource R&D and the cycle of concept to market launch has shrunk from 6 years or more to 12-18 months.
• More innovation will come from integration of existing technologies rather than some big breakthrough.
• Demand for bandwidth will keep growing.
• Significant opportunities in medicine, enterprise, and other industry verticals.
• In developing countries, while consumers are willing to pay for expensive devices, they don’t have any appetite for expensive service plans.

Some discussion points from Craig’s (Dr. Craig Barrett, Chairman of Intel Corporation) and our Q&A session:

• World will go to free MIPS and free baud (computing and communications). What happens then?
• Moore’s law is good for another 15 years based on 5 generation of future chipsets that they have in the labs. And it will probably keep going after that.
• Awareness of context really important.
• Many types of devices will proliferate including MIDs, education devices, some designed specifically for special purpose (medical monitors) and geographies (emerging markets).
• Global challenges are education, health, computing, and communication.
• In the developed world, wireless technology can help reduce the cost which is increasing at the rate of $200B/year and in the developing world, technology can help provide access to health care.
• Convenience and access trumps security concerns.
• Areas of opportunities – Telemedicine, education, economic development, governance, energy and environment.
• This is Craig’s 11th recession. Principle to tackle has been the same every time. You cannot save your way out of recession. You can only innovate out of a recession. Intel R&D budgets will remain the same.
• Innovation is key to surviving and competing in the global economy, now more so than ever.
• The fact that so much can be done in these tiny piece of electronics is just amazing and the drive to do better and more using technology keeps him going, keeps him inspired.

I am looking forward to an interesting future ;)

Phones can be unlocked by GeoSim

We all have used different phones over the period of time while on contract with a certain operator. The tricky situation comes when we move onto different operator and would sometime like to use the old phone. The way to crack this is quitely simpy unlock the phone and off it goes on any network.

GeoSIM, an international SIM card supplier, now says that it has introduced the “SIM PIG”, a SIM-like chip that bypasses the network lock on mobile phones, thus enabling any SIM card from any network to be used in a locked handset.

I honestly do not know whether this is good or bad, but simply for my own personal reason it’s good. Recently I moved from one operator to another and decided to go pay as you go. Hence I wanted to use my old phone on the new service provider but couldn’t do so until I got my phone unlocked.

SIM PIG claims to be able to unlock iPhone, Windows Mobile, HTC, Nokia, Sony Ericsson, Blackberry and many more 3G handsets. It is inserted with the SIM card into the handsets SIM card slot. The PIG then dynamically bypasses the network lock on the mobile phone. The company says it does not affect any of the handset functionality and all features are maintained, nor it does not invalidate any warranty on the handset. Once SIM PIG is removed, the handset reverts back to its locked condition.

Using the SIM PIG does not require any technical knowledge and is quick and simple to insert. As the name suggests, SIM PIG SIMply PIGgy backs on to the SIM card when it is inserted to the handset.
So how does GeoSim is able to do this business of unlocking the phone or by passing the lock?
GeoSIM routes your dialling instruction away from the local operator and sends your call to the GeoSIM “Hub”. A few seconds after you make your call, your mobile phone will ring. You answer the “callback” and you will be connected to the person you wish to talk to.
In summary:

• Dial the number you want to call.


• A few seconds after you dial, your handset will ring. Answer the “callback” from the GeoSIM Hub.


• You will then get connected to the number you are calling.

Hmmm very strange… I am really dying to know whether some body uses this method.
Do GeoSIM and SIM PIG work in the United States?
Are they fully “legal” here in UK or Europe? I don’t know…

Delay in LTE can be blessing in disguise

Most of us know by now that Sprint and Clearwire is going to combine shortly to create a company which will trade into WiMax feverishly. The idea is that the joint company which will be called as Clearwire would foster competition in the mobile broadband arena and accelerate build out or deployment of advanced technologies such as WiMax. These are the kind of developments that keep LTE camp nervous but at the same time provide them some motivation as well.

With the merger it is anticipated that company's WiMAX network, to reach 140 million potential customers by 2010. It not a coincidence that Sprint chose WiMax as a 4G standard as it is available now and our customers want 4G now.

The company Clearwire says that it has deployed WiMAX in Baltimore and plans to deploy it in Chicago, Dallas, Philadelphia and Washington, D.C., pending the close of the deal. This development together with some other factors gives enough confidence to WiMax supporters that the technology would minimize the market penetration of LTE simply because WiMAX is coming to market first.

Everybody will agree with me that WiMax is definitely in a very good position and it is WiMax’s battle to loose as far as battle of 4G is concerned.

Meanwhile, The New York Times and BusinessWeek issued positive reports on the performance of Sprint's Xohm network in Baltimore.

On that other hand I am learning that network operators are just now beginning to see a return on their 3G networks. This gives the operators some encouragement to say they won't be ready to upgrade to an OFDM-based technology until about the time LTE is ready and why should they if they are able to generate handsome revenues with the existing 3G technologies.
On the other hand this delay in deployment of OFDMA based technologies by operators does gives mobile WiMAX time-to-market advantage over LTE by at least two years.

The fact that LTE won't be ready for another two to three years may actually turn out to be a boon for LTE as the time frame will allow mobile operators to get as much life as possible out of their existing 3G networks. Incremental upgrades to enhanced 3G technologies such as HSPA+ and EV-DO Rev B will allow for almost the same data rates as the initial LTE deployments, which will effectively set the stage for large-scale LTE commercial rollouts in three to four years.
LTE has a further advantage because the majority of cellular operators around the world will choose LTE as their migration path given the fact that 3GPP has tabbed LTE as the next-generation standard for the GSM community.
It is certainly a truth that WiMAX is a very robust technology that has been quite successful in many parts of the world as a fixed broadband solution and will continue to do so, especially in under-served markets. Although mobile WiMAX networks are already going live thanks to Sprint/Clearwire and Korea Telecom, the prospect of additional mobile WiMAX networks from Tier 1 operators is looking pretty grim.

Lets see how hard the WiMax camp will fight and how shrewdly the LTE camp will play the game.

Solving the LTE voice dilemma

Continuing the discussion from LTE World Summit, this is something that has been discussed in the past by myself and other blogs as well. We know that there is no out of the box solution for voice calls in Release 8 but there are some solutions that are being standardised for this problem. Dr. Howard Benn, Director of Cellular Standards, Motorola Mobile Devices gave an interesting presentation on this topic titled, "Voice –how to talk over LTE". Here is the summary of his presentation along with some more information:
As we know, IMS was introduced in Rel 5 but even till today, there has been no major IMS rollouts. There are some operators working on deploying the IMS solution but in reality its not been as successful as it should have been. If IMS is available then the problem of voice call on LTE goes away. The problem can be solved using Voice Call Continuity or VCC. Infact there is a bunch of specifications on IMS Centralized Services (ICS) and network Centric VCC for solving this and other similar problems.

So with IMS not being available, the first alternative for this problem is Circuit Switched Fallack (CSFB). In this, as can be seen from the MSC above, the user is attached to an LTE network. MSC can send Paging to the UE and if the user accepts the voice call then he is handed over to 2G/3G network. The big problem with this approach is additional time required to establish the voice call and the PS services might get disrupted, depending on how its handled.

The second solution is to have a Generic Access Network (GAN... previously known as UMA) based solution. This is similar solution to the ones used by some Femtocells. This would mean that the UE's would require GAN chipsets and GAN is known to be power hungry so it can impact the battery life significantly.

China Mobile's, Bill Huang in a recent interview mentioned that “We could carry voice over UMA” and “We will have an LTE network that supports voice…”. He was referring to this approach mentioned above.

Finally there are always proprietary options like Skype that can be used along with the data services to solve the voice problem.

Infact a service like Vonage, modified for mobiles, can solve this problem easily. You can connect a VoIP client from your phone or device to Vonage and you are given a landline number that you can pass to others. When calls are received on this number, the client in the mobile rings and you answer the call normally.

Nick Yamasaki from KDDI mentioned that KDDI will roll out LTE with CS fallback option for voice initially but then SRVCC (Single Radio VCC) solution will be adopted in future.

iBurst may give WiMAX run for money

One of the themes that emerged from the LTE World Summit was that no one was looking at WiMAX as a competitor for LTE. LTE is being thought as 'Mobile Broadband' whereas WiMAX is being thought more of as 'Low-mobility/Fixed Broadband'. They would serve different needs and their market will hardly overlap. I have blogged about iBurst in the past and I think it may give some competition to WiMAX.

David Brunnen from Personal Broadband UK (cant find their website) gave an interesting perspective on iBurst and even though many people have not heard of it, it can still compete in the market. They have a big presence in Australia and last year won the spectrum for the whole of Ireland + Northern Ireland between 1785 - 1805MHz. Even though they have won the 20MHz band, they think that they can do with 5MHz or maximum of 10 MHz. They have also partnered with iBand and would probably allow roaming between them.

The main thing about iBurst is that it has very good spectral effeciency and an average throughput of around 600kbps. Data Rate of 1.061Mbps downlink/ 346Kbps uplink with System capacity 24.4Mbps downlink/ 7.9 Mbps uplink is supported. At the same time it offers high mobility with handovers at speed of over 100kmph. The cell radius is 1.5-3km in urban and 5-7km in rural area. Because of adaptive antennas, the same frequency can be reused and the interference can be reduced thereby increasing the cell capacity.

The biggest problem with iBurst is that there are very few players. Kyocera is the only base station supplier. On the devices side, Kyocera is the lead player but there are other new players like Dovado which has won some big contract with first US iBurst operator and Moovera (bought by Icomera) which also has some similar devices.

Last year Kyocera announed that iBurst has more than 140,000 subscribers. This year iBurst South Africa has been shortlisted for an award of "Best Operator in Developing Country". In last 6 months they have increased the subscriber numbers by 30%.

With the big players heavily invested in HSPA+/LTE and many others having a foot in WiMAX, it would be interesting to see how a possible iBurst success might be viewed. I would like to hear from people who have experienced this technology on what their feeling is about iBurst.

For more information on the iBurst technology, see Kyocera's iBurst Technology homepage.

Latest news on iBurst available from iBurst.org website.

LTE Roll out updates from the 4th LTE World Summit in London

As I mentioned in an earlier post, I got the opportunity to attend and meet with the industry experts in the 4th LTE world summit. There were some very interesting discussions and debates and some announcements about the rollout of LTE. Here is a quick summary of the announcements and news. I am sure to have missed some and will expand on some of the topics in later posts.

Karri Mikkonen, Director, Corporate Strategy, TeliaSonera in his presentation said that TeliaSonera to be an early LTE adopter with rollout planned Mid 2010. They have already bought licenses in Sweden, Norway, Finland, Denmark, Baltics. According to them LTE enables very convenient mobile data usage scenarios, and is one tool to win battle in mobile data, among others.

Bill Huang, General Manager, China Mobile Research Institute gave a very interesting perspective on mobiles in China which I will expand in a later post. According to his presentation, China Mobile will be deploying TDD based LTE (TD-LTE) option probably around 400Mhz spectrum. Trails will start by Mid 2009 and pre-commercial launch will happen around end of 2009. By Q2, 2010 there will be large scale commercial trials involving around 15,000 base stations.

Remi Thomas, Director of NGMN project and head of Network Strategy, France Telecom, France said FT plans to introduce HSPA+ and opt for 'wait and see' approach for LTE. The earliest they want to even think about LTE is after 2010 and if practical the rollout may occur in 2012. Even with HSPA+ they will opt for all the software changes only and not go for any hardware changes. So we wont see MIMO anytime soon with HSPA+ according to them. They also have plans to rollout LTE Femtocells when available to check the technology and iron out the problems with LTE technology.

Erik Ekudden, Vice President, Group Function Technology, Ericsson, Sweden in his presentation said that E\\\ will be commercially releasing equipment in 2009. Terminal HW including support FDD and TDD modeof LTE. For FDD, initial support will be for IMT core band of 2.1GHz and also IMT extension band of 2.6GHz and US 700MHz spectrum. For TDD the initial support will be for IMT extension center gap in 2.6GHz spectrum and 2.3 TDD band in 2.3GHz band.

In a question answer session, Dr Howard Benn, Director of Cellular Standards, Motorola Mobile Devices mentioned that Motorola already has a working LTE UE but not in Form factor (probably development board). He did not expand on the details.

Nick (Norikazu) Yamasaki, Manager Standards Strategy section, Emerging Technologies and Spectrum Division, KDDI Corp. in his presentation said that KDDI is a CDMA2000 operator but since with UMB nearly dead (my words) they have decided to eveolve to LTE. LTE deployment willbe started around 2012 but will co-exist with the CDMA 2000 network which they will support for another 10 years. Right now they have EV-DO Rev.A but they may also opt for Rev.B

One of the big problems that was discussed many times in the conference was that Release 8 LTE standards have no solution for the normal CS voice call. There are some hacks around it but voice part will only be solved in time for Release 9. This could delay decisions by some operators to roll out LTE networks untill after Release 9. I will write a post on this later.

Mobile advertising will grow

As the technology has evolved over the last decade so does various mobile applications and services related to it. In today’s competitive and saturated market operators and vendors are spending significant amount of time in drafting new strategies which will result in new revenue generation.

It is all about making the consumer interested and getting into the feeling of the general public in terms of what they would like and what would interest them. Mobile advertising is one such step in that area.

In the last year alone mobile advertising had emerged and there is a buzz out there related to it. I have noticed that people including myself take more notice of a mobile ad than advertising on TV or on a PC screen. And with a billion new phones being bought every year, the potential market is huge. Does this really mean that people out there really believe that it's going to be worth billions in just another two to three years?

There is no denying from the fact that mobile phones offer advertisers many different ways to reach an audience. With more and more people accessing internet from their mobile there is a potential area for growth. Placing ads at the start of a video or adding them to the results of a mobile search are less intrusive forms of promotion. I think we'll see people responding well to this kind of ad.For one thing the credit crunch will force advertisers to reduce traditional outlets like print and TV, and push them to explore cheaper and more targeted avenues, such as mobile devices.
So eventually, revenue from mobile advertising might rival that on other channels. But until then the industry will have to knock a few zeros off its forecasts.

You mist have noticed receiving various SMS from your operator sending you a message related to some product or event. SMS advertising for consumer goods, such as food and fashion is rising significantly specially in Europe.

Recent study by comScore suggested that more customers were getting ads for consumer goods such as food, fashion, restaurants, travel and financial services. In the three months ended August 2008, the number of offers received for non-mobile consumer goods rose 15 percent, compared to last year.

Food is the fastest-growing category of SMS advertising since August 2007, at a rate of 53 percent, followed by clothing-fashion at 38 percent and restaurants at 37 percent.
Mobile advertising is relatively new in the market and just like any other new thing it will take some time to settle down. However there are some articles floating around which suggest that mobile advertising is overhyped. Although these suggestions are based on some fact and data collected by the reputed analysts, I still do believe that mobile advertising will pick up especially after the latest credit crunch. In my view every time we see a launch of a new product or new technologies there is an excitement around it and in this process sometimes it gets overhyped. Same might be true with mobile advertising as well.

But like the Internet revolution before it, mobile needs to emerge from the technology foothills and develop media experiences and advertising solutions that delight and satisfy real consumers' needs and wants.

Mobile TV getting attention again

Nokia N96 with Mobile TV capability (DVB-H) has recently been launched in UK but there is no one broadcasting any Mobile TV. Maybe the operators are hoping that once there are enough handsets with this capability, Mobile TV can be launched and hopefully people will view it.

Last month, Juniper Research released a report likely to strike fear in the hearts of operators betting on consumers' willingness to pay for mobile TV content. In "Opportunities for Streamed & Broadcast Services, 2008-2013," Juniper projects that by 2013 some 330 million people worldwide will have handsets that can receive analog and digital broadcast TV signals — but less than 14 percent of them will sign up for pay mobile TV services.

"The development of terrestrial TV-capable receivers with comparatively low power consumption, and the availability of these receivers in mass market handsets, throws into question the business case for the deployment of a dedicated network in many markets," said report author Dr. Windsor Holden.

In Germany, Mobile 3.0's DVB-H trial flopped when operators started promoting their own TV-capable phones designed to receive DVB-T signals for free — undermining Mobile 3.0’s pay TV business model.

Last July, Toshiba shut down its Japanese satellite mobile TV subsidiary, Mobile Broadcasting, because the subscriber base wasn't big enough to support the business. But it wasn't because the Japanese aren't watching mobile TV. In fact, shipments of handsets able to receive Japan's free 1-seg mobile TV service continue to soar according to the Japan Electronics Information Technology Association — 10 million in the first half of 2008, bringing the total of 1-seg units shipped to 30 million.

Of course, the situation is markedly different in the United States where carriers have a lock on the handsets available to subscribers. And so far, that has effectively stifled competition from devices that can receive free-to-air TV. But with more free-to-air devices hitting the market, it's reasonable to question whether that trend will continue indefinitely.

In another announcement last month, IHT reported that France presented plans to set aside about a fifth of the country's prime television broadcasting spectrum for mobile Internet and television services by the end of 2009, in what supporters described as a major step toward creating a harmonized mobile broadband network in Europe.

France is the first major European country to reserve part of its most valuable broadcasting spectrum, the so-called UHF band, for mobile broadband and video services. Finland and Sweden have also said they plan to reserve the band for mobile services.

If a Europewide broadband network were to come to fruition, its greater scale would probably push down the cost of Internet services to consumers, especially in rural areas not reached by fast, fixed-line networks. It could also enable large mobile operators to sell services, like mobile TV or mobile broadband, across national borders, further increasing competition and lowering consumer prices.

The move was hailed by mobile operators and by the European Union's telecommunications commissioner, Viviane Reding, who is proposing that her office be given a greater role in influencing how EU countries redistribute the frequency.

The French plan, disclosed by Eric Besson, a French state secretary responsible for evaluation of public policies, commits France to reserving 72 megahertz of prime spectrum that is currently being used exclusively by television broadcasters - the 790 MHz to 862 MHz band - for mobile broadband services by the end of next year.

Besson said the country's broadcasters would be able to use the remaining portion of the UHF spectrum - 470 MHz to 790 MHz. He said that would still be enough to support 11 terrestrial broadcasters plus two new mobile TV broadcasters, owned either by mobile operators or TV broadcasters.

Sami said the French plan would most likely influence other European nations to make a similar redistribution. Britain, he said, is also leaning toward devoting a portion of that spectrum, from 806 MHz to 862 MHz, for mobile services.

In Germany, DVB-H licensee Mobile 3.0 handed back its licence to local regulators. The return of the licence was ordered by the authority for private broadcasters - Zulassungs- und Aufsichtskommission für den privaten Rundfunk (ZAK) - because Mobile 3.0 did not meet the conditions of the licence. It is not sure when a new licence will be issued. Meanwhile DVB-T carries on its success with LG planning to launch another handset model before Christmas.

In Switzerland, Take-up of the mobile TV service from Swisscom is not meeting expectations, according to Swisscom Broadcast chief Jean-Paul de Weck, speaking during the Biel Bienne Communication Days (Comdays). The main reason for the slow acceptance is the lack of choice of DVB-H capable handsets. Up until the end of September, the Nokia N77 was the only handset available to receive the service, though now there are four different models. Swisscom currently has about 5,000 mobile TV users, though it expects to gain more subscribers with the wider choice of handsets.

Qualcomm is now to give some more attention to its mobile TV standard of MediaFLO. This is because they no longer have to worry about UMB (see this). Outlining future strategies, Qualcomm indicated it's focusing more on its MediaFLO mobile broadcast TV and its Firethorn mobile banking technologies to carry it in the near term while it develops its Long Term Evolution (LTE) wireless infrastructure and its Snapdragon platform for future inroads in wireless mobile. MediaFLO is operated in 62 markets, but it's expected to get a boost in February when the big switchover to digital TV takes place. Qualcomm purchased $555 million worth of spectrum in the FCC's 700-MHz auction earlier this year, and the purchase will be used to spread MediaFLO. The new spectrum will enable the company to address 108 markets by the end of 2009, according to media reports.

Finaly for some good news:

A large U.S. television broadcaster has announced good results from recent trials in Chicago and Denver of mobile TV using a draft standard from the Advanced Television Systems Committee (ATSC). Ion Media Networks, Inc. said it found it relatively easy to set up two mobile channels in each city and reception was better than expected. The Open Mobile Video Coalition (OMVC), an alliance of local and national TV broadcasters, hopes to see members roll out commercial mobile TV services late next year. To date mobile TV services using other technologies have failed to deliver and grow a market among cellphone, notebook and car video users.

Ion Media's stations WCPX and KPXC have been multicasting two standard definition mobile channels since August. LG Electronics and Harris Corp., whose technology was selected for the ATSC standard, provided prototype mobile TV receivers and transmission equipment for the tests.

We're seeing fantastic reception out to as far as 40 miles from transmitters, and beyond that we have good transmission outdoors but it's not consistent indoors," reported Jenkins.

Reception was also good in cars at freeway speeds and indoors within 40 miles of transmitters. "We went into parking garages where there were three or four levels of concrete above us, and reception was perfect--that was one of the big technical lessons," said Jenkins.

Spectrum availability was not a problem in the trial. One station in the trial supports an existing high definition terrestrial broadcast, another supports multiple existing standard def channels.

UMB now officially dead, Long live LTE!

As one article put it, "Qualcomm cancels its own 4G system" going further to mention "Ultramobile broadband (UMB) is ultra dead". I blogged earlier about Nortel abandoning its CDMA business and about CDMA operators defecting to LTE and was sort of waiting for this imminent announcement to happen. There were already rumors about this happening since last year. (Not sure if some Hedge fund managers did be on this ;). UMB is also known as CDMA2000 EV-DO Rev C.

Qualcomm Inc officially announced that it has stopped development of Ultra Mobile Broadband (UMB), its next-generation, high-speed wireless technology, and has been making small-scale layoffs as it looks to cut costs in the weakening economy, Chief Executive Paul Jacobs said. Jacobs said the company was putting resources into LTE technology instead.

The company that created CDMA techology, meant for UMB to be CDMA’s 4G play. The company had high hopes for squeezing out WiMAX, positioning UMB to compete directly against LTE. With a logical upgrade path for existing CDMA carriers, UMB was designed to continue the GSM vs CDMA platform war in the fourth generation of wireless technology.

However, Qualcomm in recent years has gained dominance in the LTE development field as well. With Qualcomm now heavily invested in UMTS/HSPA technology, UMB had Qualcomm playing both sides, ensuring that they would be dominant in all CDMA-derived products (both UMB and LTE use technology originally derived from Qualcomm’s oldest CDMA patents).

With WiMAX becoming embraced, and even deployed, globally, UMB failed to gain a single carrier. The main cause for CDMA carriers defecting to WiMAX, has been Qualcomm’s monopoly on the technology. WiMAX trumps UMB in being an industry standard, not controlled or mandated by a single company.

The CDMA Development Group (CDG) has yet to comment on this announcement. However, the CDG has told PhoneNews.com that their driving force going forward will be to foster CDMA as a low-cost network option, especially in developing nations. Qualcomm still hopes to use CDMA for new networks in Africa, using their own hybrid GSM/UMTS/CDMA chipsets for international roaming when those customers travel abroad.

This leaves LTE as the eventual winner and with Operators already planning to roll out LTE network mid next year, WiMAX is going to get tough competetion from LTE. CDMA2000 operators meanwhile will have to now start planning how to move towards LTE (or WiMAX for that matter). 3GPP has laid down clear evolution path to move to LTE from CDMA2000. Other option which I quoted earlier is the eHRPD approach.