Wednesday 11 August 2010
Ericsson Presentation: Cognitive radio in Europe
Sunday 27 June 2010
Prof. Mike Walker: Mobile Internet - Better than fixed?
Tuesday 25 May 2010
Quality of Service (QoS) and Deep Packet Inspection (DPI)
This QoS can be varied based on deep inspection of the packets which can tell the operator as to what service a particular packet belongs to. The operators can thus give higher priority to the services and applications that are recommended by them and also block certain services that can be deemed as illegal or unproductive (like file sharing or P2P).
Continuous Computing claims to be one of the market leaders in producing the DPI systems. You can read this article by Mike Coward who is the CTO and Co-founder of Continuous computing here.
Monday 24 May 2010
The 'Cost per Bit' issue...
A slightly older report from Ericsson suggested that from operator point of view, 1GB data transfer can cost as low as 1 euro.
So if we now plug in the above information into the slide below, presented by Moray Rumney of Agilent in the LTE World Summit, we can see that the operators have been earning massive profits on our behalf.
With Mobile broadband becoming more common and cheaper, users may not be willing to pay any more than they are now. At the same time, they may expect the speeds to keep increasing at regular intervals. The operators will soon be forced (if not already doing so) to offer QoS based packages which can help them boost their revenue and provide better QoE to the higher paying users.
I will cover this issue of QoS, QoE and DPI in the upcoming posts.
If you are wondering along the lines of how to reduce this cost per bit then I would recommend you to go back and have a look at this discussion on Martin Sauter's blog.
Saturday 22 May 2010
50 Billion Connected Devices by 2020 (2025?)
Thursday 20 May 2010
Redefining the wireless Quality of Experience (QoE) with LTE
Tuesday 13 April 2010
HSPA finds success with Mobile Broadband Growth
- According to a report from AdMob, smartphonedata traffic grew 193% year-over-year in the month of February 2010. Smartphonesaccounted for 48% of its traffic in February 2010, up from 35% the year before. AdMobattributed this primarily to iPhoneand Android traffic.
- Deutsche Telekom CEO RenĂ© Obermann is expected to double revenues by 2015 with €10 billion coming from mobile data traffic. Obermann said it would double the number of 3G smartphonesin the network to around 8 million by the end of 2010
- A recent report by In-Stat, stated that mobile broadband is now the second-largest access technology behind DSL, making up 18% subscribers
- Telia Sonera reported that the strong demand for mobile devices, including mobile broadband and Apple iPhone™, continued. Mobile data traffic in Nordic and Baltic operations increased close to 200% while the number of mobile broadband subscriptions rose by more than 60% during 2009.
- AT&T reported that Text messaging grew 50% YoY and picture messaging grew 130%
- According to IDC's Worldwide Quarterly Mobile Phone Tracker, vendors shipped a total of 54.5 million units Q4 09, up 39.0% from Q4 08. Vendors shipped a total of 174.2m units in 2009, up 15.1% from the 151.4m units in 2008. Converged mobile devices accounted for 15.4% of all mobile phones shipped in 2009, up slightly from 12.7% in 2008
- The number of people subscribing to broadband internet services in Australia grew rapidly with wireless broadband and 3G mobile services continuing strong growth in 2009, according to a new report by ACMA (Australian Communications and Media Authority). 3G now accounts for more than 50% of all mobile subscriptions, an annual increase of 44%. Internet subscriptions reached 8.4 million in June 2009, compared to 7.2 million in June 2008. Broadband subscriptions increased from 5.66 million to 6.72 million in the same period, with wireless subscribers gaining 162% to 2.1 million
- Vodafone's Data traffic has risen 300% in the past two years. Data now represents 11% of all European service revenues. Smartphones represent 20% of handsets sales. Around 40% of the company's European 3G/HSPA networks now support 7.2 Mbps. In the coming 6 months, Vodafone plans to upgrade 20-25,000 sites across Europe to HSPA+
- UK consultancy firm, Coda Research Consultancy, has predicted that mobile data consumption in the US is set to reach 327,000 terabytes a month by 2015, indicating a 40-fold rise in mobile data consumption over 5 years
- Mobile data traffic from PC modems and routers is forecast to increase 4-fold between 2010 and 2014, according to a report by ABI Research. 2,000 petabytes of data will be sent and received in 2010, a figure that will rise to about 8,000 petabytesin 2014
- Semiannual US wireless industry survey was released at CTIA in March 2010 revealing that wireless service revenues totaled $77 billion for the last half of the year. The real growth is coming from wireless data services -mobile Web, text messages, and other non-voice services. In the latter half of last year, revenue for wireless data service totaled > $22 billion, nearly a third of overall wireless services revenue and up 26% YoY. Steve Largent, President and CEO of CTIA, said in a statement. "Mobile broadband will increasingly play a vital role in people’s lives."
- A new study by Juniper Research has forecast that more than 1 in 10 mobile subs will either have a ticket delivered to their mobile phone or buy a ticket with their phone by 2014, representing a five-fold growth over the next five years.
- Strategy Analytics recently forecast that the number of active mobile broadband subscriptions worldwide is expected to rise to around 1.3 billion by 2014
- ABI Research announced that shipments of mobile broadband-enabled consumer products, which includes e-book readers, mobile digital cameras, camcorders, personal media players, personal navigation devices and mobile gaming devices will increase 55-fold between 2008 and 2014 with total shipments reaching 58 million units per year in 2014
Monday 12 April 2010
GSA report on Evolution to LTE
- 64 networks in 31 countries have committed to LTE network rollout.
- Upto 22 LTE networks would be in service end of 2010
- 39 or more LTE networks will be in service end of 2012
- Digital Dividend Update - March 2010
- UMTS900 Global Status - March 2010
- Spectrum for LTE Mobile Broadband - Sep. 2009
- From TD-SCDMA to TD-LTE - Sep. 2009
- Low Frequency Options for Mobile Broadband - Sep. 2009
- UMTS 900 case study - June 2009
Monday 22 February 2010
Femtocells update from Mobile World Congress 2010
Among a host of announcements, the leading silicon supplier for this segment, picoChip, was working hard to maintain its headstart as Qualcomm and others gear up to enter the market. It announced no fewer than six new customers, many coming from the Taiwanese ecosystem that is so vital to the mass adoption and price competitiveness of any emerging consumer product.
The new customers are Alpha Networks, Argela, Askey, C&S Micro, Contela and Zyxel, all of which will use the UK firm's PC302 picoXcell system-on-chip for HSPA(+). This is designed to reduce cost and time to market for vendors, and now has over 20 adopters, including Vodafone's femto supplier Alcatel-Lucent, and AT&T's, Cisco/ip.access.
Meanwhile, the femto players are looking ahead to LTE, where there are many indications from operators that tiny cells will play a big part in the strategy. The devices will be used from day one by some carriers - to offload data from the macrocell or to provide indoor coverage in high frequencies like 2.6GHz. They could also add capacity to deployments in low frequencies like 700MHz and even be used as a starting point for greenfield providers, which could then add macro networks later, explained Simon Saunders, chair of the Femto Forum.
Continuous Computing has been eyeing the femto market for several years from its heartlands in protocol stacks, core networking and traffic shaping. At MWC, it worked with picoChip and Cavium Networks to show the first complete LTE femtocell reference design. Available immediately, this includes the LTE modem, RF and packet processors, protocol software, intelligent router functionality and a complete Evolved Packet Core (EPC) simulator.
"The demand for LTE femtocells is unquestionable. We are already seeing operators asking for small cell access points to start testing in the second half of this year. Femtocells represent the key to avoiding the difficulties surrounding the first 3G deployments where roll-outs cost too much, took too long and did not meet user expectations," said Mike Dagenais, CEO of Continuous.
The reference design used a picoChip modem, mezzanine RF card and PHY software; Cavium's Octeon Plus multicore processor; and Continuous' Trillium LTE Layer 2/3 protocols, eNodeB reference application and EPC emulator.
Monday 8 February 2010
3G Americas Publishes New Report on Technology choices for Mobile Broadband
Thursday 7 January 2010
Morgan Stanley's 'The Mobile Internet Report'
But it does discuss SMS to some degree, and briefly mentions MMS and 'non 3G' internet such as in China (ie WAP). It is also very good making analysis of Japan's mobile internet (including i-Mode before 3G). Totally worth downloading and reading.
Now a few key highlights. The total mobile data industry for 2009 worth... 284 Billion dollars. Wow. Morgan Stanley says it grew 20% this year (while the global economy shrunk 5%). For those who were looking for regional splits of phone market shares or smartphone market shares - this report has them. It says that the modern smartphone is equivalent to a desktop PC 8 years ago in performance. Haha, fave topic of mine - they also say that for internet content consumption - the mobile is 'better' in at least four areas (but not in every case). These 4 are email, VoIP, news and social networking. And they tell us that the value of paid digital content on mobile phones is 4x as big as the value of paid digital content on the PC internet.
And yes, hundreds of more data points, stats and tons of good graphs to help explain. Totally worth downloading, reading and quoting. Enjoy
Tuesday 15 December 2009
Teliasonera reaches a milestone with first commercial LTE Networks
Read the press release here.
By the way, its a bit shameful that the operator wants to market itself and its using the term 4G for LTE as it probably sounds more sexy :) I blogged couple of years back and it still applies that LTE is 3.9G and IMT-Advanced/LTE-Advanced is 4G.
Saturday 31 October 2009
Over-the-top (OTT) Applications and Services
Traditionally lots of services like Voice and Television for example is delivered in a conventional way where Voice was transferred via a PSTN or a Mobile network and similarly TV was delivered via Cable, Satellite, DVB-T kind of technology. With Internet becoming common and Broadband access available to everyone, easily and cheaply, new applications are available to deliver Voice and TV kinds of services. The most popular voice app is for example Skype and Youtube is an example of TV (even though its more like Video On Demand)
These apps cause two main problems. The first problem is that the companies using this traditional medium starts losing customers and their cost per person goes up forcing their profits down. At the same time the amount of data traffic for the ISP increases thereby increasing the number of bits/cent (bits/pence). This forces them to upgrade their infrastructure to provide the same quality of service (QoS).
What this would mean is that in future it would not be possible to get flat rate packages for Mobile broadband or there may be restrictions where certain applications wont run unless you pay extra.
The dilemma for carriers is that LTE’s all-IP architecture will create a more open environment for Over The Top (OTT) applications, including third-party VoIP services, which threaten to further commoditize the network. To overcome this threat and realize revenue gains from LTE, carriers will need to partner with content and application providers, develop application store-fronts such as Apple’s App Store, and perhaps deploy APIs that expose LTE’s value-added network capabilities to third-party application and content developers for a fee.
The only way to ensure profitability in this ‘cost-per-bit’ model is to maximise scale. We have seen this clearly in mobile telephony, where a lack of differentiation has led to intense price pressure, flat rate tariffs and a decoupling of the revenues from the costs. The mobile operator suffers the cost of deploying ever increasing bandwidth while the ‘value’ that this bandwidth enables – the access to over the top (OTT) applications and services benefits the OTT providers.
To avoid this commoditisation, service providers need to add intelligence to the way they deliver these bits. Adopting a ’value-per-bit’ strategy ensures that the value added over and above the simple transport of data is seen and desired by the consumer and by any upstream content or application provider.
This creates a tighter coupling between infrastructure costs and the revenue that infrastructure can attract, thereby ensuring a far more sustainable business model for the service provider. It also benefits consumers and application providers by providing them levels of security, performance and reliability appropriate to the transaction being carried out and the subscribed service.
Most of us wouldn’t dream of paying for a customized Internet experience on a tailor-made device from our broadband service provider. But that is the way we used to buy telephone service, and it continues to be the way we do things for mobile and video services. Over time, all of these businesses will follow a similar pattern, breaking down into their component parts so that the best adapted players win in each piece of the business. The only questions are: “Who are the best adapted?” and “How long will it take?”
Further Reading: Making the Network Relevant in an Over-the-Top World
Monday 26 October 2009
African Mobile Market grows 550% in 5 years
Africans are buying mobile phones at a world record rate, with take-up soaring by 550% in five years, research shows.
"The mobile phone revolution continues," says a UN report charting the phenomenon that has transformed commerce, healthcare and social lives across the planet. Mobile subscriptions in Africa rose from 54m to almost 350m between 2003 and 2008, the quickest growth in the world. The global total reached 4bn at the end of last year and, although growth was down on the previous year, it remained close to 20%.
On average there are now 60 mobile subscriptions for every 100 people in the world. In developing countries, the figure stands at 48 – more than eight times the level of penetration in 2000.
In Africa, average penetration stands at more than a third of the population, and in north Africa it is almost two-thirds. Gabon, the Seychelles and South Africa now boast almost 100% penetration. Only five African countries – Burundi, Djibouti, Eritrea, Ethiopia and Somalia – still have a penetration of less than 10 per 100 inhabitants.
Uganda, the first African country to have more mobiles than fixed telephones, is cited as an example of cultural and economic transformation. Penetration has risen from 0.2% in 1995 to 23% in 2008, with operators making huge investments in infrastructure, particularly in rural areas. Given their low incomes, only about a quarter of Ugandans have a mobile subscription, but street vendors offer mobile access on a per-call basis. They also invite those without access to electricity to charge their phones using car batteries.
Popular mobile services include money transfers, allowing people without bank accounts to send money by text message. Many farmers use mobiles to trade and check market prices.
The share of the population covered by a mobile signal stood at 76% in developing countries in 2006, including 61% in rural areas. In sub-Saharan Africa, closer to half the population was covered, including 42% in rural areas.
At the end of 2007, there were eight times as many mobile phones as fixed lines in the least developed countries. The number of fixed lines in the world has essentially been frozen around 1.2bn since 2006 and saw a slight decline in 2008.
But a "digital divide" persists in terms of internet access. Australia, a country with 21 million inhabitants, has more broadband subscribers than the whole of Africa. There is also a huge gap in terms of broadband speed. The report warns: "Urgent attention is needed to address this situation and bring the continent more meaningfully online."
Other developing regions often boast a broadband penetration 10 times higher than in Africa, where Algeria, Egypt, Morocco, South Africa, and Tunisia account for 90% of all subscriptions. Broadband access in Burkina Faso, the Central African Republic and Swaziland is the most expensive in the world, costing more than $1,300 (£780) a month.
The report also found that at the end of 2008 there were an estimated 1.4bn internet users around the world. The growth rate of 15% was slightly lower than in 2007. In developing countries, the number of users grew by a quarter and such countries now account for more than half the world's internet users. But while more than half of the developed world population is now online, the corresponding share is only 15% in developing economies and 17% in "transition" economies.
China hosted the biggest number of users (298 million), followed by the United States (191 million) and Japan (88 million). A little over one fifth of the world's population used the internet in 2008.
Wednesday 23 September 2009
Net Neutrality: Good or Bad?
I am not sure what the right answer to this question is? There will be winners and losers in either case.
FCC (Federal Communications Commission) chairman Julius Genachowski has just outlined his much-awaited plan for Internet neutrality. If the plan is approved it would drag the wireless operators in the US into the public regulatory arena occupied by their wired cousins who have recently had to account for their neutrality policies to the FCC.
The proposed policy outlined today by Genachowski will mean the FCC will get to poke and pry into mobile operators' business policies and rule on how well they conform to FCC guidelines on neutrality in the same way that wiredtelcos must. The FCC will also impose new and tighter neutrality behaviour on the big phone companies including Verizon and AT&T.
In detail: Genachowski has reaffirmed the long-standing (since 2005) broadband principles that will now be formalised by the FCC.
- That consumers are entitled to access the lawful Internet content of their choice.
- That they are also entitled to run applications and use services of their choice, subject to the needs of law enforcement.
- That they are entitled to connect their choice of legal devices that do not harm the network.
- And that they are entitled to competition among network providers, application and service providers, and content providers.
"The rule-making process will enable the commission to analyse fully the implications of the principles for mobile network architectures and practises, and how, as a practical matter, they can be fairly and appropriately implemented," Genachowski said today.
U.S. phone companies may be forced to open their wireless networks to rival Internet services like Skype and Google Voice under the proposal. The proposal, if adopted, would be a victory for consumer advocates and big Internet companies like Google Inc at the expense of telecom operators like AT&T Inc, Verizon Communications and Sprint Nextel Corp.
"The risk to the wireless carriers is that they won't be able to stop customers from using free voice and text services like Skype or Google voice," said Bernstein analyst Craig Moffett. "Voice and text are where they make all of their money."
The FCC has already been examining why Apple Inc rejected Google Voice for use on iPhone, sold by AT&T.
The new proposal could result in mobile customers cutting their phone bills by opting for minimum carrier voice plans and doing without text-messaging plans if they use mobile voice and text services from Skype and Google.
Piper Jaffray analyst Christopher Larsen downplayed the risk, saying that if they have to, operators would be sure to find a way to change their fees in order to maintain profits.
Advocates of Net neutrality have long argued that service providers must be barred from blocking or slowing Internet traffic based on the content being sent or downloaded.
But service providers say the increasing volume of bandwidth-hogging services -- such as video sharing -- puts pressure on them as it requires active network management, and some argue that Net neutrality could stifle innovation.
AT&T, the No. 2 U.S. mobile service, said it was concerned about an extension of Net neutrality rules to the competitive mobile industry.
The new regulations would limit consumer choices and "affect content providers, application developers, device manufacturers and network builders," said an executive at Verizon, which owns the No. 1 mobile service with Vodafone Group Plc.
Wireless trade group CTIA, whose members include AT&T, Verizon Wireless and Sprint Nextel, said it was concerned the proposal would have "unintended consequences." Leading Cable provider Comcast Corp said it was pleased Genachowski "recognized that networks need to be managed."
Exactly my thoughts (but with proper technical terms, language and analysis ;) by Gary Kim in IP Communications:
In the communications business, rationing is a fact of network life. Since virtually every part of a communications network uses shared resources, and in a market where users do not want to pay too much for access to those resources, rationing of network resources is necessary.
Shared finite resources always pose a usage problem. Known as the "tragedy of the commons," the economic problem is that multiple individuals, acting independently, solely and rationally when using a common resource can ultimately destroy the shared limited resource.
Some people argue that this problem cannot exist with the Internet, which is virtually infinitely expansible. But that misses the point. In looking at shared resources, the "commons" is the access network's resources, primarily. In other words, the "choke point" is the homeowner's garden hose, not the reservoir.
Some might argue that IP technology, optics, Moore's Law and competition upend the traditional "scarcity" value of access bandwidth. Certainly it helps. Currently, most consumers have access to two terrestrial broadband providers, two satellite networks, three, possibly four mobile networks. Then, there are broadband pipes where people work, at school and at many retail locations.
Still, there are some physical and capital investment limits, at least at retail prices consumers seem willing to pay. If consumers are willing to pay much more, they can get almost any arbitrarily-defined amount of access bandwidth. That, after all, is what businesses do.
If consumers resist paying business prices, network investment has to be shared more robustly than it otherwise might.
Given that all network resources are shared, resources are finite. To support retail prices that require such sharing, networks are designed in ways that "underprovision" resources ranging from radio ports to multiplexers to backhaul bandwidth. Based on experience, network designers engineer networks to work without blocking or degradation most of the time, but not necessarily always. Unusual events that place unexpected load on any part of the access network will cause blocking.
Blocking, in other words, is a network management technique. And that's the problem the Federal Communications Commission is going to have as it looks at additional "network freedoms" rules commonly known as "network neutrality." The term itself is imprecise and in fact already covered by the existing FCC rules. One might argue the issue is more the definitions and applications of existing rules that require clarification.
The ostensible purpose of the new rules is to prevent access provider blocking or slowing of any lawful applications, but a rule exists for that. Instead, it appears a primary effect of the rules will be to extend wired network rules to wired providers.
Beyond that, policymakers will have to contend with tragedy of the commons effects. If, in forbidding any traffic shaping (a network management technique) in the guise of "permitting the free flow of bits," rulemakers might set the stage for dramatic changes in industry packaging and prices of Internet access and other applications and services.
U.S. consumers prefer "flat rate billing" in large part because of its predictability of cost. But highly differentiated usage, in a scenario where networks cannot be technically managed by any traffic prioritization rules, will lead to some form of metered billing.
If metered billing is not instituted, and if service providers cannot shape traffic at peak hours to preserve network access for all users, then heavy users either have to pay more for their usage patterns, they will have to change their usage patterns, or they might experience some equivalent of "busy hour blocking."
Application providers and "public policy advocates" seem to be happy that new network neutrality rules might be adopted. They might not be so happy if ISPs lose the ability to deny or slow access to network resources. On the voice networks, some actual call blocking is allowed at times of peak usage. Forcing users to redial might be considered a form of traffic shaping, allowing access, but at the cost of additional time, or time-shifted connections.
To the extent that such blocking rules already are impermissible, some other network management techniques must be used. And one way to manage demand is to raise its price, either by increases in flat-rate package prices, by instituting usage-based billing or some other functionally-similar policy.
To avoid the tragedy of the commons problem, in other words, requires raising the end user's understanding of cost to use the shared resource.
Prioritized traffic handling, which assigns users a lower priority in the network once they have reached their fair use level, might be a preferable traffic management technique to slowing any single user's connection, once their individual usage caps have been reached.
When that is done, heavy users experience degradation in service only when competing for resources in a congested situation. For peer-to-peer users, the experienced reduction in throughput will be limited over time.
Only in heavily loaded cells or areas will a peer-to-peer user experience serious issues. Prioritized traffic handling enables operators to focus on dimensioning their networks for normal usage, while still permitting unlimited or "all you can eat" traffic.
Perhaps there are other ways of handling the "rationing," but on a shared network with network congestion, available to users paying a relatively modest amount of money, while a highly-differentiated load being placed on the network by a small number of users, some form of rationing is going to happen.
Perhaps flat rate packaging might still be possible if rationing affects end user credentials, rather than bits and applications or protocols. In other words, instead of "throttling" a user's bandwidth when a pre-set usage cap is exceeded, what is throttled is access to the network itself.
Thursday 10 September 2009
New report on Mobile Broadband Evolution from HSPA to LTE-Advanced
The white paper, HSPA to LTE-Advanced: 3GPP Broadband Evolution to IMT-Advanced (4G), discusses the 3GPP evolution of EDGE, HSPA and LTE, their capabilities and their positions relative to other primary competing technologies and how these technologies fit into the ITU roadmap that leads to IMT-Advanced.
The following are some of the important observations and conclusions of the report:
- HSPA Evolution (HSPA+) provides a strategic performance roadmap advantage for GSM-HSPA operators. Features such as dual-carrier operation, MIMO and higher-order modulation offer operators multiple options for improving their networks, and some of these features are simply network software upgrades.
- Persistent innovation in developing HSPA and HSPA+ is bringing UMTS to its full potential providing mobile broadband to the mass market; in current deployments, HSPA users regularly experience throughput rates well in excess of 1 Mbps under favorable conditions, on both downlinks and uplinks, with 4 Mbps downlink speed commonly being measured. Planned enhancements such as dual-carrier operation will double peak user-achievable throughput rates.
- LTE has become the next-generation platform of choice for GSM-HSPA and CDMA/EV-DO operators.
- The 3GPP OFDMA approach used in LTE matches or exceeds the capabilities of any other OFDMA system providing the most powerful wide area wireless technology ever developed. Peak theoretical downlink rates are 326 Mbps in a 20 MHz channel bandwidth.
- 3GPP has made significant progress investigating how to enhance LTE to meet the requirements of IMT-Advanced in a project called LTE-Advanced.
With a customer base of 4 billion connections today, the GSM family of technologies is available on nearly 800 networks in 219 countries worldwide. Building on this base, UMTS-HSPA – the world’s dominant mobile broadband technology today – has proven to be the most widely deployed and adopted 3G technology of all time, with more than 352 operators in various stages of deployment, including 277 commercial HSPA networks in 116 countries.
The white paper explains the tremendous opportunity afforded to GSM-HSPA operators via the 3GPP roadmap to HSPA+. While OFDMA systems such as LTE and WiMAX have attracted a great amount of attention, evolving HSPA to exploit available radio technologies can significantly enhance its performance capabilities and extend the life of sizable operator HSPA infrastructure investments. Techniques include advanced receivers, MIMO, Continuous Packet Connectivity, Higher-Order Modulation and One Tunnel Architecture, many of which are included in the standardization of 3GPP Release 7 and Release 8.Depending on the features implemented, HSPA+ can exceed the capabilities of IEEE 802.16e-2005 (Mobile WiMAX Release-1) in the same amount of spectrum. Beyond the peak data rate of 42 Mbps for HSPA+ in Release 8 (with 2X2 MIMO, DL 64 QAM and UL 16 QAM), Release 9 may specify 2X2 MIMO in combination with dual-carrier operation, which would further boost peak theoretical downlink network rates to 84 Mbps. In addition to the increased speeds, HSPA+ also will more than double HSPA capacity and has the potential of reducing latency to below 25 milliseconds.
HSPA and HSPA+ will continue to dominate mobile broadband subscriptions worldwide for the remainder of this decade and well into the next. However, announcements have already begun in support of the next 3GPP evolutionary step, LTE. Trials and deployments of LTE will begin in 2010 by leading operators including AT&T, China Mobile, China Telecom, NTT DoCoMo, Verizon and Vodafone. In fact, today there are more than 2 billion subscriptions represented by combining the total existing customer bases of the more than 100 operators, both GSM and CDMA operators, who have announced indications of their intention to deploy LTE networks.
The deployment of LTE and its coexistence with UMTS-HSPA will be analogous to the deployment of UMTS-HSPA and its coexistence with GSM-EDGE.
Whitepaper available to download here.
Accompanying slide presentation available here.
Thursday 2 April 2009
Femtocells in India: No thank you.
First some details on the current situation in India:
Yet from a wired broadband internet position:
Tuesday 17 March 2009
IPHOBAC's advanced photonic technologies: Up to 12.5 Gbit/s @ 60 GHz
With much of the mobile world yet to migrate to 3G mobile communications, let alone 4G, European researchers are already working on a new technology able to deliver data wirelessly up to 12.5Gb/s.
The technology – known as ‘millimetre (mm)-wave’ or microwave photonics – has commercial applications not just in telecommunications (access and in-house networks) but also in instrumentation, radar, security, radio astronomy and other fields.
Despite the quantum leap in performance made possible by combining the latest radio and optics technologies to produce mm-wave components, it will probably only be a few years before there are real benefits for the average EU citizen.
This is thanks to research and development work being done by the EU-funded project IPHOBAC, which brings together partners from both academia and industry with the aim of developing a new class of components and systems for mm-wave applications.
The mm-wave band is the extremely high frequency part of the radio spectrum, from 30 to 300 gigahertz (GHz), and it gets it name from having a wavelength of one to 10mm. Until now, the band has been largely undeveloped, so the new technology makes available for exploitation more of the scarce and much-in-demand spectrum.
It recently unveiled a tiny component, a transmitter able to transmit a continuous signal not only through the entire mm-wave band but beyond. Its full range is 30 to 325GHz and even higher frequency operation is now under investigation. The first component worldwide able to deliver that range of performance, it will be used in both communications and radar systems. Other components developed by the project include 110GHz modulators, 110GHz photodetectors, 300GHz dual-mode lasers, 60GHz mode-locked lasers, and 60GHz transceivers.
Project coordinator Andreas Stöhr says millimetre-wave photonics is a truly disruptive technology for high frequency applications. “It offers unique capabilities such as ultra-wide tunability and low-phase noise which are not possible with competing technologies, such as electronics,” he says.
What this will mean in practical terms is not only ultra-fast wireless data transfer over telecommunications networks, but also a whole range of new applications.
One of these, a 60GHz Photonic Wireless System, was demonstrated at the ICT 2008 exhibition in Lyon and was voted into the Top Ten Best exhibits. The system allows wireless connectivity in full high definition (HD) between devices in the home, such as a set-top box, TV, PC, and mobile devices. It is the first home area network to demonstrate the speeds necessary for full wireless HD of up to 3Gb/s.
The system can also be used to provide multi-camera coverage of live events in HD. “There is no time to compress the signal as the director needs to see live feed from every camera to decide which picture to use, and ours is the only technology which can deliver fast enough data rates to transmit uncompressed HD video/audio signals,” says Stöhr.
The same technology has been demonstrated for access telecom networks and has delivered world record data rates of up to 12.5Gb/s over short- to medium-range wireless spans, or 1500 times the speed of upcoming 4G mobile networks.
One way in which the technology can be deployed in the relatively short term, according to Stöhr, is wirelessly supporting very fast broadband to remote areas. “You can have your fibre in the ground delivering 10Gb/s but we can deliver this by air to remote areas where there is no fibre or to bridge gaps in fibre networks,” he says.
The project is also developing systems for space applications, working with the European Space Agency. Stöhr said he could not reveal details as this has not yet been made public, save to say the systems will operate in the 100GHz band and are needed immediately.
There are various ongoing co-operation projects with industry to commercialise the components and systems, and some components are already at a pre-commercial stage and are being sold in limited numbers. There are also ongoing talks with some of the biggest names in telecommunications, including Siemens, Ericsson, Thales Communications and Malaysia Telecom.
“In just a few years time everybody will be able to see the results of the IPHOBAC project in telecommunications, in the home, in radio astronomy and in space. It is a completely new technology which will be used in many applications even medical ones where mm-wave devices to detect skin cancer are under investigation,” says Stöhr.
Monday 16 March 2009
£300/min: The cost of mobile broadband while roaming
He had assumed that he could use his £25 Vodafone data card - which gives him access to mobile broadband while overseas - without incurring any unexpected costs.
But when he returned from the five-day break in Meribel, he was sent a phone bill for nearly £21,716.
Mr Pierce and his son Louis, eight, had gone for a 'boys' holiday' with another father and his son, also eight.
The group rented an apartment, but it did not have any English-language TV channels. With the boys too young to spend evenings out in the resort, Mr Pierce was anxious to keep them entertained.
So over the course of the stay he downloaded several shows - mostly Top Gear for the boys and Kavanagh QC for the grown-ups - on to his laptop computer using the data card.
He was charged according to the number of megabytes used, meaning one show lasting less than 18 minutes cost him £5,132 - almost £300 a minute. Downloading the same size file in the UK would not have cost Mr Pierce anything under most broadband tariffs.
Mr Pierce did not deal directly with Vodafone, instead addressing his complaint to DRD Communication Services, the European network operator.
DRD agreed to waive its fees, bringing the bill down to £16,500, but Vodafone initially insisted that the usage was 'valid' and refused to back down.
However, a spokesman for Vodafone said yesterday that the company would waive the full amount.
She added: 'Such bills are exceptionally rare and we have an investigation under way.'