Saturday, March 29, 2008

IMS rolling on! Quiet and Steady



IP Multimedia Subsystem (IMS) is expected to provide mobile telephone operators with a forecasted $300 billion in extra revenue over the next five years, according to a new study from ABI Research. Major operators such as Sprint, Verizon and British Telecom (BT) will increasingly deploy IMS across their networks in a quickening tempo starting this year.

“Until recently IMS was mainly the province of fixed-line operators,” says senior analyst Nadine Manjaro, “but now it is essential to the success of mobile and fixed operators who are losing revenue from traditional sources. IMS enables rapid development and deployment of new services.”

Some firms – notably Verizon and BT – are facilitating this process by offering an open IMS interface allowing third-party developers easy access, as a way of ensuring a flow of new applications. This means faster testing and deployment of services, which will be critical to their success.

“Operators are forced to look at IMS and similar solutions because they need to start generating more revenue,” notes Manjaro. “With recent moves by Sprint, Verizon and AT&T to offer less profitable flat rate services as a way to fight subscriber churn, that need becomes more acute.”

One impediment to IMS’s success in the past has been the difficulty of proving the business case for it. But Manjaro suggests that planners were incorrectly considering IMS as a service rather than a platform. In fact IMS supports multiple services, and it takes several of them to make a valid business case. To use the hackneyed phrase, there has been a paradigm shift in operators’ strategic thinking.

The major remaining challenge for operators is to integrate IMS without seriously disrupting existing services. That need is being met by the major infrastructure vendors such as Ericsson, Alcatel, and Nokia-Siemens, which have been packaging IMS (at additional cost) with the network upgrades they provide to operators. Manjaro points out that, “It’s easier to quantify the opportunity for operators because you can look at it in terms of potential revenue. It’s more difficult with regard to vendors, because they’ve been bundling it with the air interface, the base station, the architecture upgrade.”


In other new IMS pulse-taking – Forward Concepts’ ‘Femtocells: The Emerging Solution for Fixed Mobile Convergence’ report – it’s predicted that IMS-powered femtocells will capture the dominant fixed-mobile convergence (FMC) market share by 2010. The argument here is that Unlicensed Mobile Access (UMA) is a transitional technology and cellular carriers will ultimately transition to IMS-enabled femtocells. Forward Concepts calculates that global femtocell equipment revenues will grow at a CAGR of 126% from 2008 to hit US$4.9bn in 2012. Western Europe will be the largest market, driving 32% of the revenue, followed by North America with a 22% share.

Check my old blog on IMS and UMA.

The IMS (IP Multimedia Subsystem) and the NGN (Next Generation Networks) Forums announced recently the successful completion of interoperability testing at the IMS Forum Plugfest 4 and plans for the NGN Plugfest 5. Plugfest 5, scheduled for June 2008 at the University of New Hampshire InterOperability Lab (UNH-IOL), will test consumer and enterprise M-play interoperability.
The IMS and NGN Forums are dedicated to interoperability and certification of M-play, mobile multimedia services, and applications for wireless, wireline, and cable broadband over IP networks.


The IMS Forum's Plugfest 4, held at the UNH-IOL Feb 25 - 29, was the latest in a series of events designed to deliver IMS and NGN interoperability and certification. Participating companies tested a number of leading technologies and services for interoperability, including triple play, VoIP (voice over IP), fixed mobile convergence (FMC) from multiple vendors, test and measurement equipments, SIP (session initiation protocol), class-5 features (voicemail, etc), Diameter IMS stacks, and instant messaging with presence support. Plugfest 4 was the first successful IMS call between mobile UE (user equipment) devices and core network elements P-CSCF servers, S-CSCF, and HSS, all from separate vendors.

Plugfest 4 was expanded to include billing interfaces for charging for IMS services. Tests included an IMS-compliant charging/billing system working with multiple network configurations, as well as interoperability of operational support systems and business support systems (OSS/BSS). This is a major milestone since the charging/billing systems are a major component for network operators to deploy IMS.

More than 15 companies participated in IMS Plugfest 4, including Intel as a platinum sponsor, HP, Amdocs, Acision, Alpha Networks, Aricent, Data Connection Ltd., Empirix, Mavenir Systems, Mu Security, NextPoint Networks, Radvision, Shenick Network Systems, Sonus Networks, Starent Networks, Tekelec, and UNH-IOL. PulverMedia and IMS Magazine served as media sponsors.

Finally, Ericsson has announced an agreement with Beijing Netcom, a branch of China Netcom, to provide the company with a Command Supporting System based on Ericsson's IMS solution for the Beijing Olympic Games.

China Netcom is the official fixed-telecom service partner for the Beijing 2008 Olympic Games. Under the agreement, Ericsson will be the sole supplier and systems integrator for an IMS (IP Multimedia Subsystem) platform to enable personal multimedia communication.

Ericsson's IMS solution enables the convergence of data, speech and network technology over an IP-based infrastructure. It supports fast and efficient management and coordination of value-added services, including voice, text, pictures and video, providing end users with a personalized, richer communications experience.

Deployment and systems integration has started and is set to be completed by March 2008. It will span the six Olympic Games cities in China.

The agreement is an extension of a contract signed between Ericsson and Beijing Netcom in April 2007 to build the first commercial IMS network in China.

Beijing Netcom says: "As an official partner for the 2008 Beijing Olympics, this agreement emphasizes our commitment to providing telecom-quality IP multimedia services that combine voice, data, audio and video. This move will bring an enhanced communications experience to users in Beijing and across other Olympic cities."

Mats H. Olsson, President of Ericsson Greater China, says: "Ericsson is extremely proud to build on its longstanding relationship to provide Beijing Netcom with the first IMS-based multimedia service for the 2008 Olympic Games. This contract confirms that IMS has come of age, enabling volume deployment supporting multimedia capabilities within the fixed-network operator's service."

Ericsson is the world's leading provider of technology and services to telecom operators. The market leader in 2G and 3G mobile technologies, Ericsson supplies communications services and manages networks that serve more than 185 million subscribers. The company's portfolio comprises mobile and fixed network infrastructure, and broadband and multimedia solutions for operators, enterprises and developers. The Sony Ericsson joint venture provides consumers with feature-rich personal mobile devices.

Do we need mobile on Planes

One of the last refuges from annoying ringtones and anodyne phone conversations is likely to disappear after communications watchdog Ofcom cleared the use of mobile phones on aircraft yesterday, with some airlines ready to launch services in time for the summer holidays.

The prospect of passengers shouting "I'm on the plane" at 11,000 metres (37,000 ft) may fill many with dread, but for the airlines it could be a real moneyspinner to charge passengers a hefty premium to make and receive calls in the air.

Passengers will still be banned from using their mobile or Blackberry email device at take-off and landing. Once at 3,000 metres the cabin crew will switch on equipment to pick up the signal from a mobile and relays it to the ground via satellite.




Ofcom confirmed plans to enable airlines to offer mobile communication services on UK-registered aircraft, if they wish to do so. This will be subject to approval by the relevant UK and European aviation authorities - the European Aviation Safety Agency (EASA) and the Civil Aviation Authority (CAA) in the UK.

The decision has been developed jointly with other EU countries and will enable use in European airspace. It follows an Ofcom consultation on the proposals published in October 2007.

The safety of passengers is paramount and mobile systems on aircraft will only be installed when they have secured approval by EASA and the CAA in the UK. If such approval has been secured it will be a matter for individual airlines to judge whether there is consumer demand for these services.


The proposed system utilises an on-board base station in the plane which communicates with passengers' own handsets. The base station - called a pico cell - is low power and creates a network area big enough to encompass the cabin of the plane.

The base station routes phone traffic to a satellite, which is in turn connected to mobile networks on the ground.

A network control unit on the plane is used to ensure that mobiles in the plane do not connect to any base stations on the ground. It blocks the signal from the ground so that phones cannot connect and remain in an idle state.

Calls will be billed through passengers' mobile networks. "

The story of WiMAX in India

Read an article on WiMAX in India in Rediff:

On March 4, India's Tata Communications, an emerging broadband player, announced the countrywide rollout of a commercial WiMax network, the largest anywhere in the world of the high-speed, wireless broadband technology.

Already 10 Indian cities and 5,000 retail and business customers use the product, and by next year Tata will offer service in 115 cities nationwide. The folks at Tata can hardly contain their excitement. "WiMax is not experimental, it's oven-hot," says Tata's Prateek Pashine, in charge of the company's broadband and retail business.

Of course WiMax is not new. Most everyone in the industry has been talking about it for years. Intel chairman Craig Barrett has been propagating its virtues in pilot projects across the world, including India and Africa.

Sprint will be rolling out a WiMax network in Washington next month, and in other US cities next year. Until now the most advanced use of WiMax has been in Japan and Korea, where Japanese carrier KDDI and Korea Telecom offer extensive WiMax networks.

However the Japanese and Korean services are not available nationwide - KDDI will have its major rollout only in 2009 - and most people use them as supplements to the wired services.

It's in emerging economies like India, where there is little connectivity and where mobile usage is soaring because of the difficulty in getting broadband wires to homes and offices, that WiMax is likely to see its full potential as a commercially viable technology.
Intel, whose silicon chips power WiMax, has been pushing for this technology for some years and its executives are practically salivating at the thought of the successful rollout in India.

"The more countries and telcos that get behind this technology the better," says R. Sivakumar, chief executive of Intel South Asia. Predicting that the new technology will make other types of Internet access obsolete, he boasts "Tata will set the cat among the pigeons."

Tata Communications has been working on setting this up for a couple of years, and successfully completed field trials last December. It has used the technology from Telsima, a Sunnyvale (Calif.) maker of WiMax base-stations and the leading WiMax tech provider in the world.

For now, the technology will be restricted to fixed wireless, but Tata plans to make it mobile by midyear. The company has invested about $100 million in the project, which will increase to $500 million over the next four years as it begins to near its goal of having 50 million subscribers in India.

The world is watching

Global tech analysts are will be watching carefully. Though WiMax is prevalent in Korea, the Korean service is a slightly different version, says Bertrand Bidaud, a communications analyst with Gartner in Singapore. It's a Korea-specific pre-WiMax technology called WiBRO.

But the Indian market is where the conditions for a WiMax deployment are the best, he says, because of limited fixed lines. That means Tata has fewer hurdles to overcome. And as WiMax scales up fast, it will give service providers greater flexibility and costs will drop equally rapidly.

"If it doesn't succeed in India, it will be difficult (for it to succeed) anywhere else, and Bharti, Tata has been virtually asleep, with a limited subscriber base for its limited product. In fact, even with as many as seven broadband providers in the market, the total Indian subscriber base is just 3.2 million and there is no clear market leader.
But with the WiMax rollout Tata can gain a leadership position and add "a few thousand subscribers a day," says Alok Sharma, chief executive of Telsima. Tata is, of course, going for the heavy-billing corporate customer - a target audience that is beginning to make big investments in technology.

Temple service via WiMax

But also important is the ordinary Indian retail customer who can watch movies via WiMax and enjoy Tata's other unique offerings. For instance, users can take in an early morning worship service at the famous Balaji temple in South India.

The temple permitted Tata to install cameras so that Hindu devotees from around the world could watch the proceedings in the temple around the clock. To get connected initially, users will simply have to go to a store, buy a router, install it, and then they become instantly connected. It will be as easy as buying apples, Tata executives promise.
The Tata rollout is a chance for India to become cutting-edge in mobile Internet services, say WiMax boosters. For India, which "always used last year's fashion to dress itself up," says Sharma, it is a chance to launch a brand new. fourth-generation technology that the world can follow. "India is becoming the knowledge centre of the world; it should take the lead in this," he adds.


There are some other bits which I got from one of VSNLs (now known as Tata Communications) presentation:

  • ISPs using 3.3GHz spectrum for WiMAX roll-out
  • At least 3 networks being built in all large towns
  • Best spectral efficiencies

Wireless Broadband opportunity in India bigger than:

  • Entire LatAm (predominantly on 3.5 GHz)
  • Korea (at 2.3 GHz)


Current deployments by Indian operators rival the biggest ofWiMAX deployments around the world. VSNL deploys the largest WiMAX network in a city across the world.

Soft launched on December 31, 2007 in BANGALORE:

  • Silicon Valley of India
  • 8 million people and over 10000 industries
  • 86% literacy ( national avg – at 61%) - second highest literacy rate for an Indian metropolis, after Mumbai.
  • More than 1000 software companies - Infosys and Wipro, India's second and third largest software companies are headquartered in Bangalore
  • The population of the IT industry folks in Bangalore is 5% i.e 400,000.
  • Bangalore's per capita income of Rs. .49,000 (US$ 1,160) is the highest for any Indian city.
  • Launched with 132 BTS, will be adding another 28 by March 2008
  • 3.3 Ghz, 12 Mhz, 3 Mhz/sector, 4 sectors85% of the city covered
  • The response has been far better than what we had anticipated
  • In 20 days we have installed an equivalent of 10% of the existing wireline base
  • Currently a huge backlog of orders to be installedCustomer experience has been fantastic
  • Additional BTS to ensure full coverage planned

Way forward:

  • Enterprise roll out into another 300 cities over the next 15 months
  • Retail roll out into another 15 – 20 cities over the next 15 months
  • Spectrum in 2.5/2.3 Ghz awaited

Tuesday, March 25, 2008

Those Engineering days

I still remember my university days as an engineering student. Over the weekend i read couple of funny posts on engineers:

First is "Top 5 Reasons It Sucks to Be an Engineering Student". The best reason i like is:

1. Every Assignment Feels the Same: Nearly every homework assignment and test question is a math problem. Only a few courses require creativity or offer hands-on experience.

The other one, " Understanding Engineers" is posted by me after receiving in an email. My favourite in this was:

Understanding Engineers - Take Three
A priest, a doctor, and an engineer were waiting one morning for a particularly slow group of golfers.

The engineer fumed, "What's with those blokes? We must have been waiting for fifteen minutes !"

The doctor chimed in, "I don't know, but I'venever seen such inept golf!"

The priest said, "Here comes the greens keeper.Let's have a word with him."

He said, "Hello, George! What's wrong with that group ahead of us? They're rather slow, aren't they?"

The greens keeper replied, "Oh, yes. That's agroup of blind fire fighters. They lost their sight saving our clubhouse from a fire last year, so we always let them play for free anytime."

The group fell silent for a moment.

The priest said, "That's so sad. I think I will say a special prayer for them tonight."

The doctor said, "Good idea. I'm going to contact my ophthalmologist colleague and see if there'sanything he can do for them."

The engineer said, "Why can't they play at night?"

Sunday, March 23, 2008

802.11 family is getting quite big

Having only studied 802.11a, b and g in past, I was surprised to find that there are many other 802.11 protocols in the family.


See which ones do you know:
  • 802.11a - 54 Mbps standard, 5 GHz signaling (ratified 1999)
  • 802.11b - 11 Mbps standard, 2.4 GHz signaling (1999)
  • 802.11c - operation of bridge connections (moved to 802.1)
  • 802.11d - worldwide compliance with regulations for use of wireless signalspectrum (2001)
  • 802.11e - Quality of Service (QoS) support (2005)
  • 802.11f – Inter access point protocol to support roaming clients (2003)
  • 802.11g - 54 Mbps standard, 2.4 GHz signaling (2003)
  • 802.11h - Enhanced version of 802.11a to support European regulatory requirements (2003)
  • 802.11i - Security improvements for the 802.11 family (2004)
  • 802.11j - Enhancements to 5 GHz signaling to support Japan regulatoryrequirements (2004)
  • 802.11k - WLAN system management
  • 802.11l - Skipped to avoid confusion with 802.11i
  • 802.11m - Maintenance of 802.11 family documentation
  • 802.11n - Future 100+ Mbps standard
  • 802.11o – Voice over WLAN, faster handoff, prioritize voice traffic over data
  • 802.11p – Using 5.9GHz band for ITS (long range)
  • 802.11q – Support for VLAN 802.11r – Handling fast handoff when roaming between APs
  • 802.11s – Self-healing/self-configuring mesh networks
  • 802.11t - Wireless Performance Prediction
  • 802.11u - Interworking with External Networks
  • 802.11v - Wireless Network Management standard
  • 802.11w - Protected Management Frames standard
  • 802.11x – Summarize all 802.11 standards, but it is not a standard.
  • 802.11y - Contention Based Protocol Study Group
For a quick introduction see the following links:
You may also be interested in this new book:



What can mobile operators learn from Laloo


I am sure a lot of you have no Idea who Laloo or 'Lalu Prasad Yadav' is. He was long term chief minister of Bihar state in India is well known for corruption and scandals (as are many other politicians in India). In 2004 he became the Railways Minister of India.

Indian Railways is a very sensitive topic. As much as people like to complain about it, its makes everyone proud. Its one of the biggest railway network in the world, employs over 1.5 million people and the total distance covered by the trains is 3.5 times the distance to moon.

In 2001 an expert declared that Railways will be bankrupt by 2015 unless privatised. It was making huge losses and was expected to make US$15.4 billion loss by 2015. Lalu turned it around in 2-3 years and now its made profit of U$2.47 billion.

To turn this huge organisation from loss making to profit making he followed some simple logic.
  • Reduce the fares instead of increasing them and the occupancy will improve
  • Increase the freight loading hours from 10 hours to 24 hours daily
  • Make everything simple for ordinarly people to follow including reservations
  • Once the basics are working keep improving the infrastructure and make further cost reductions

Now lets compare this to how mobile operators behave.

  • They provide big subsidy for the handsets but they think this gives them right to charge whatever they wish.
  • The tariff's are still not competetive for international calls and while roaming abroad. A simple call making and receiving for a UK mobile on roaming to US can be charged to £1.20 per min. Compare this to making it free using Skype. This puts off so many people in calling home when abroad and receiving calls on their mobiles. If its cheaper more and more people will make and receive calls when abroad.
  • Using data abroad could be like commiting suicide.
  • There are couple of networks who give huge student discounts but with them text messages can take upto 12 hours to be delivered.
  • Some networks have customer service open for limited hours and they charge calling the number even with the same network mobile.
The mobile operators like to complain that the voice call revenues are decreasing and there is still not enough data uptake. I would urge them to set their house in order before they complain. In the end the consumers will always find cheaper alternatives like VoIP and WiFi unless its something important. On the oher hand if some cheap options are available we do not mind trying them.

Saturday, March 22, 2008

And the winner is . . . DVB-H


Brussels has now officially endorsed DVB-H as the mobile TV technology of choice in Europe. This means that member states are now required to "encourage" use of the technology, though the commission has no advice as to how to encourage punters to tune in.

In the UK both T-Mobile and Orange are about to launch trials using the competing MBMS (Multimedia Broadcast Multicast Service) technology, which utilises existing 3G networks and spectrum. The technology for that trial is being provided by NextWave Wireless, and CMO Jon Hambidge is dismissive of EU attempts to mandate a mobile TV technology "when [the network operators] spent billions of dollars on their licences MBMS [was] part of that business case".

Note that in an earlier blog I had mentioned that Mobile TV and MBMS will co-exist. See here.

Viviane Reding, EU telecoms commissioner, has made it clear that if companies don't migrate to DVB-H she'll use regulatory measures to create an EU-wide standard.

Background Material:

The DVB-H standard is a recent extension of the DVB-T standard. It is intended to allow reception of television programs with portable and mobile terminals of relatively small size (the H of DVB-H means “handheld,” which indicates the primary type of devices targeted).

In most cases, the terminal will be a mobile phone. In fact, one of the main goals of DVB-H is to avoid the limitation inherent to UMTS of the number of terminals which can receive the same broadcast television program at one time. The main extensions of DVB-H compared to DVB-T are as follows (their use is signaled by specific TPS bits):

• addition of a 4 k COFDM mode, better suited to the implementation of SFN networks of medium cell size and allowing a reduction of the power consumption of the terminal compared to the 8 k mode;
• addition of a longer time interleaving (double for the 4 k mode and quadruple for the 2 k mode), which improves the behavior in case of signal fading and resistance to impulsive noise;
transmission of a given service in periodic bursts by a process known as “time slicing” which permits a subscriber to activate the receiver only during a fraction of the time (5 to 10%) in order to reduce the power consumption, thus increasing the battery operating time;
• the ability to increase robustness by means of an optional additional link layer error correction (MPE-FEC) to improve the reception with an integrated antenna of necessarily very limited performances.

In order to allow the best use of these extensions, TV programs or other broadcast services are transmitted to mobile terminals as elementary streams (ES) formatted as IP (Internet Protocol) datagrams. The use of the IP protocol is, however, different from the one in TV by ADSL using DVB-IP: in DVB-H, the IP datagrams are encapsulated according to the so-called multiprotocol encapsulation (MPE) and then inserted in an MPEG-2 transport stream for transmission (in DVB-IP, it’s the transport stream which is IP encapsulated). This operation consists of encapsultaing the IP datagrams in DSM-CC sections by adding a header and a CRC termination. These sections are then segmented into MPEG-2 transport packets.

In order to realize the desired time-slicing, sections are not transmitted immediately, but are accumulated in order to form records of a maximum size of 191 kb, which will correspond to the duration of the time slice allocated to a service. These records can be represented as a table of 191 colums by a maximum of 1024 rows on which an optional additional error correction called “MPE-FEC” can be applied. This MPE-FEC consists of a Reed–Solomon coding RS (255,191) applied to words of 191 bytes made of the lines of this table. This will produce a second table made of an RS word of 64 bytes for each line of the original table. The result will be a new table of 255 colums by a maximum of 1024 lines which will be read column by column for transmission.

The DVB-H standard can be used in the UHF TV band with usual DVB-T channel widths (6, 7, or 8 MHz, depending on the region) or in other frequency bands (e.g., L-band in the United States around 1.67GHz with other channel widths, 5MHz in this case).

One of the problems with the use of the UHF band for TV reception in a GSM phone is the proximity of the high part of the UHF band (up to 862 MHz) to the GSM 900 transmit band of the terminal (880 to 915 MHz). Taking into account the current filtering capabilities, this prevents in practice the possibility of using the high UHF channels (>750 MHz) in a TV receiver integrated into an operating GSM phone.

The DVB-H standard can in principle use all the combinations of modulation parameters allowed by the standard (QPSK to 64-QAM, etc.) but, given the required robustness of this application, in practice only QPSK and 16-QAM with FEC of 1/2 or 2/3 are realistically usable, which permits bit-rates of 5 to 11 Mb/s in an 8MHz channel (without MPE-FEC correction). The video encoding used will be mainly H.264 with a CIF or QCIF resolution and bit-rates in the order of 256 to 384 kb/s.

Various experiments took place in Europe from 2004 onward to test the technical performances of the system in order to define the characteristics of the network, and to find out the user acceptance and expectations in order to establish a viable business model. The reactions of the test sample have been positive or enthusiastic everywhere. The first commercial DVB-H services started in Finland and Italy in mid-2006.
For more information see:


Healthcare using BWA (Broadband Wireless Access)

Came across this paper entitiled "IEEE 802.16/WiMAX-based broadband wireless access and its application for telemedicine/e-health services". While it is common sense that any prehospital diagnosis and monitoring can be very helpful it is important to make sure that the information is updated properly and with correct QoS.

Ambulances and other medical emergency vehicles travel at extremely high speeds. This would require that the technology in place is able to handover between different cells and keeps the equipment connected to the server. The nurse should concentrate on the patient rather than worry about the link being maintained electronically. This also necessitates a quaranteed QoS being maintained for this setup to work effectively. The figure above shows the QoS that is required in different situations.

In the above mentioned paper, the authors argue that WiMAX/802.16 networks can be engineered for telemedecine/e-health services. The main focus should be on Radio Resource allocation and admission control policy. Other important thing is to remember while implementing to use TCP for loss sensitive data and UDP for delay sensitive (but loss in-sensitive) applications.
I am sure the healthcare industry is already looking in these kinds of options and its just matter of time before we will hear about some new related application.

Thursday, March 20, 2008

Japanese (and Koreans) only want 3G+

According to this news on Yahoo, Japanese stores took delivery of no second-generation mobile telephones in January for the first time since their launch as shipments of advanced handsets soared, an industry group said Tuesday.

Japan and South Korea are at the forefront of third-generation (3G) phones, which offer high-speed Internet access and other interactive features and have not even entered the market in many developing nations.

Manufacturers sent 4.08 million cellphones to Japanese stores in January, the Japan Electronics and Information Technology Industries Association said.

"For the first time, the number of second-generation models was zero," it said.
Japan becomes the second country to be virtually finished with second-generation following South Korea, according to Nomura Research.

Japanese stores continue to offer a small number of second-generation phones, but it is almost impossible for new users to start fresh subscriptions.

At the end of February, nearly 85 percent of Japanese mobile users were carrying third-generation or equivalent phones. Japan's top-ranked NTT DoCoMo Inc. in 2001 became the world's first company to offer 3G.

Despite the success in Japan and South Korea, 3G has caught on more slowly in other countries amid questions over whether customers will pay much steeper prices for features they could find on their home computer.

Third-generation or advanced second-generation accounts for about 50 percent of North American cellphones and 10 percent of Western European mobiles, according to industry surveys.

In Japan, mobile operators have increasingly written off second-generation phones as a source of profit and have been developing more advanced features to woo customers.
More than 60 percent of the phones delivered by manufacturers in January are equipped for digital television broadcasts.

Japan began digital broadcasts in 2006 that allow mobile phone users to watch several hours of interrupted television on their phones without recharging the battery.
"It's the third straight month that such phones make up more than half of the mobile phones," the industry association said.

Some 20 million Japanese now have phones to watch digital broadcasts, which major networks offer for free.

Wednesday, March 19, 2008

muni Wi-Fi: What an amazing concept



There is this anazing concept of public Broadband (also known as municipal WiFi or muni WiFi). The local council or municipalty installs WiFi across a big area, town or city and this is an unprotected network open to public.

U.S. is pioneer of this concept and they have been planning or rolling it out across many cities. Have a look at this Top 10 Municipal WiFi Plans from Businessweek for more info.

ABI Research forecasts that the total global area covered by municipal Wi-Fi will expand nearly sixty-fold from 520 square miles in 2004 to 30,000 square miles in 2012.

The analyst firm said that the US leads in municipal Wi-Fi deployments, but that Canada, Japan, South Korea and Western Europe are rapidly expanding municipal Wi-Fi infrastructure and applications.

Varying levels of maturity and acceptance exist within the market, spread across global regions and individual countries.

ABI believes that the US employs the wrong business plan of free consumer access and free infrastructure, and that incumbent service providers view municipal Wi-Fi as a competitive threat.

In Europe, mobile-oriented rather than PC-oriented incumbents initially resisted municipal Wi-Fi but now recognise in-building limitations.
Stan Schatt, vice president and research director at ABI Research, highlighted key financial benefits that should be included in the municipal Wi-Fi business case.

"Wireless surveillance systems, for example, will provide financial returns by helping prevent possible terrorist attacks, decreasing overall crime, improving traffic flow, and even boosting tourism by creating stable communities," he said.

Once the technology, business and cost issues are resolved, however, Schatt predicts that nations will benefit from this simple and low-cost broadband internet access technology, consequently broadening the range of networked services.

Ofcourse not everyone is happy and everyone has their own opinion on how it should run.

There is also ad powered WiFi hotspots springing up in different places which will provide higher speeds than compared to this muni Wi-Fi but you will have to click on some ad every hour or two and once WiMAX is commonly available this muni Wi-Fi thing may seem like an expensive experiment because with WiFi there needs to be a router or repeater every few hundred metres which takes effort to install and maintain and is expensive peice of equipment. Lets see what happens.

Monday, March 17, 2008

MXtv or MAXtv


NextWave MXtv(TM) is a breakthrough mobile multicast and broadcast technology that enables WiMAX operators to deliver a broad range of rich and personalized multimedia services including mobile TV, interactive media services, and digital audio for a more compelling subscriber experience. An innovative broadcast solution, NextWave MXtv does not require any additional spectrum and uses existing radio access network equipment providing operators with an entirely new business model to increase revenues and achieve profitability. With MXtv, WiMAX wireless operators can effectively manage their valuable spectrum resources by dynamically balancing bandwidth allocated to broadcast services with on demand services.

So we now have Mobile TV over WiMAX which i personally think is quite good. Unfortunately the Mobile TV services havent caught up with general public yet but the operators have themself to blame quite a bit for this. The pricing is not friendly and then a lot of times, the content is not very friendly. The online portal designers dont understand how to categorise the content so someone doesnt have to browse for 5 minutes to reach their favourite item.

Anyway, this Mobile TV thing is a really good option along with MBMS, TDtv, DVB-H, T-DMB, MediaFLO, etc., etc.


NextWave Wireless Inc. has signed a strategic deal with Alcatel-Lucent over the WiMAX-based mobile TV platform it announced earlier this week.


The agreement calls for Alcatel-Lucent to integrate NextWave's MXtv technology into its WiMAX portfolio, based on the 802.16e-2005 (Rev-e) standard.



The companies also plan to perform a series of interoperability tests with Alcatel-Lucent's commercial WiMAX infrastructure starting in the second quarter of this year.


In a separate deal, Chinese communications gear supplier Huawei also said this week it would integrate the MXtv technology into its own WiMAX networking kit.



The MXtv technology has also been integrated into NextWave's low-power, Wave 2 compliant NW2000 series WiMAX subscriber device SoC. The device is currently being integrated into a wide range of devices with some device availability planned for second half of 2008.


The technology is based on the TDtv mobile TV platform NextWave (San Diego, Calif.) gained access to through the acquisition last year of UMTS-TDD kit supplier IP Wireless (Chippenham, England).



NextWave says its latest broadcast technology will allow WiMAX operators to deliver rich and personalized multimedia services including mobile TV, interactive media, and digital audio. NextWave said that macro-diversity technology is used to improve the broadcast performance over the WiMAX channel.


The offering promises 30fps QVGA and WQVGA content and up to 45 high quality mobile TV channels in 10MHz with channel switching times below two seconds.



Network operators can also dynamically allocate spectrum based on content availability, time of day requirements, user demand, and the availability of live events such as sports, concerts, interactive reality shows or emergency broadcasts.


"User demand for mobile broadcast services is rapidly expanding and we believe that the exciting new applications offered through this alliance will provide mobile operators a unique ability to deliver the key differentiating feature of 4G networks," said Allen Salmasi, CEO of NextWave Wireless.

Thursday, March 13, 2008

On OFDMA ...


Last year I wrote a blog on the difference between OFDM and OFDMA. Lots of people found it useful.

With OFDM/OFDMA being discussed everywhere, I thought of linking an article which would give everyone quick info on these technologies. This article from Network Systems Designline titled "Understanding OFDMA, the interface for 4G wireless" is split into two parts:



Let me know if you found these of use.

Wednesday, March 12, 2008

Nokia Morph Concept Phone


This Nokia Morph Concept phone looks quite cool.

Launched alongside The Museum of Modern Art “Design and The Elastic Mind” exhibition, the Morph concept device is a bridge between highly advanced technologies and their potential benefits to end-users.

The first thing is to actually check this Demo at Nokia site which will give you a very good idea of this.

Thursday, March 6, 2008

IPv6! One small step for man, one giant leap for mankind


3G Americas has published a whitepaper urging wireless service providers to start making a transition plan asap.


Anyone who has studied TCP/IP in their studies would know the basic problem with IPv4 is that the address is only 32 bits long and this allows a theoretical maximum of 2^32 addresses. Ofcourse practically the number would be far less because some of the address are either reserved or wasted due to the way the networks are designed (Subnets, etc).

To overcome this sometime in the beginning of 1990's IPv6 was formulated with 128 bit address. This would mean unique IP address to every street lamp is possible without us worrying about depletion of the addresses. Ofcourse the human nature is such that they dont change their behaviour untill forced to and this is the same reason IPv6 is not been used popularly.

When 3G was being standardised one of the main goals was also to use IPv6 exclusively but then everyone chickened out citing various problems and continuity of services.

Anyway, this new 3G Americas paper has laid down a plan and possible pitfalls that would be encountered when transitioning to IPv6. The following is a self explanatory summary for the report:

To transition to IPv6 or not? A critical question for many service providers is when to transition to IPv6. As pointed out earlier, IPv6 has several benefits which will result in a simpler, more powerful and more efficient network. The sooner a service provider achieves these benefits, the sooner it will be at a competitive advantage compared to service providers who delay transition. The risks of delaying the transition are the following:

 Managing a dwindling IPv4 address space will become increasingly expensive. Address
allocation requires careful planning; previously assigned address blocks may need to be
recovered, which is a complex process; and the management of additional devices such as
Network Address Translation (NAT) devices add to the cost.

 The service provider that delays transition to IPv6 may not be able to deliver the same
services as service providers that have made the transition to IPv6. The ability to support
always-on and peer-to-peer services is impaired when traffic has to traverse NAT devices.
For example, always-on services require that a user is always reachable and therefore
cannot share a pool of public addresses with other devices. This can be mitigated through
address and port translation, but also that has its limitations.

 At some point, a service provider who has not made the transition to IPv6 may become
unattractive as a roaming partner to service providers who have made the transition. The
same may be true in retail/wholesale relationships.

On the other hand, transitioning to IPv6 at an early stage also has certain risks. The transitioning process is complex. It requires a significant investment in planning and training. During the transition period, the service provider must run both IPv4 and IPv6 systems concurrently, which leads to an increase in operational expenses. Furthermore, there is a risk of service interruption, customer dissatisfaction and penalties. All service providers will need to go through this, but an early adopter may run into problems which later adopters could avoid.

In the end, we believe that service providers don’t have the option to delay IPv6 introduction. The exhaustion of IPv4 addresses will force a transition to IPv6, and as pointed out earlier, address exhaustion may become a reality within the next five years. From that point on, service providers will face an increase in operations cost, if not because of introduction of IPv6, then due to the complexity of running an IPv4-only network with a diminishing pool of addresses.

With careful planning, the risk of early adoption can be mitigated significantly.

Wednesday, March 5, 2008

Parlay, OSA, etc


Parlay (as opposed to Parley in 'Pirates of the Carribean') integrates telecom network capabilities with IT applications via a secure, measured, and billable interface. Parlay's open application programming interfaces (APIs) release developers from having to write code for specific networks and environments, reducing risks and costs, and allowing for innovative new services to be delivered via the telco network-operator channel. Enabled by Parlay's network-independent APIs, applications are generating new revenue streams for network operators, application service providers (ASPs), and independent software vendors (ISVs).

Today, where each service interacts individually with different network elements, ParlayAPIs can be useful.
These APIs will allow you to access same services regardless of whether you are using a Mobile phone or a fixed line phone or a PC thereby creating a Virtual Home Environment (VHE).

Many different organisations are part of the Parley group including 3GPP, ETSI, OMA, ITU to name a few.


Finally if you find this interesting then you may want to read "Parlay/OSA: From Standards to Reality".

More:

If you have any further pointers explaining relationships between Parlay, OSA, SOA, JAIN, CORBA, TINA-C, IMS, NGN, VHE, etc. Please post a comment and let us know.

Tuesday, March 4, 2008

UMTS in 900MHz is finally seing light



ARCEP announced yesterday that it has authorised Orange France and SFR to deploy UMTS technology in France in the 900MHz band. ARCEP also proposed that Bouygues Telecom should reuse the 900MHz band for 3G. According to the regulator, the mobile operator said that it would deploy UMTS in the 900MHz band by the end of 2009 and that it would request modification of its authorisation when it is necessary.


UK regulator Ofcom has already opened a consultation on the future of the 900MHz band, currently allocated to Vodafone and O2 for their 2G services, and has suggested that a technology-neutral auction might be in order for 2009.


So, why should we be happy with 900MHz UMTS as opposed to 2100MHz UMTS:
  • The increased frequency reduces cell range, resulting in a more costly network rollout and makes achieving GSM like coverage (>90% population) very challenging. Additionally, with the rapid roll-out of HSDPA (an evolution bringing broadband like speed to UMTS) and its less robust, higher-order modulation scheme (16QAM), building penetration from macro deployments becomes an issue.
  • W-CDMA (UMTS) in the 900MHz band achieves a 60 per cent reduction in the number of cell sites required to serve rural areas, and can deliver improved quality of service in urban areas by enhancing in-building penetration by 25 per cent.
  • 900MHz is a good frequency for building penetration and decent range, and is used in rural areas where the small-cell-site advantage of 1800MHz is less applicable.
  • Signal coverage of 2 – 4 times the coverage in the 2100MHz band, resulting in a reduced number of base stations required
  • Improved indoor coverage in urban areas. A 2006 study showed a 25% improvement in in-building penetration
  • Added potential for re-use of existing GSM base stations, antenna systems and feeders if deployed within existing GSM sites
  • Lower power consumption, since the RF power amplifier (one of the largest electricity consumption item in a Node B) efficiency is much improved

Monday, March 3, 2008

How to sell report using the numbers game



Came across this press release by Research and Markets with title, "4Q07 Global 3G/4G Deployments & Subscribers Tracker ". In this it seems that they have indicated LTE as 4G. LTE standards has not yet been finalised and the technology is not in operation anywhere but this makes the report sound better. Good way of sexing up the report ;)


By the way, if you want to know the bottomline:

3G/4G subscribers (i.e., those subscribers to WCDMA/HSPA, EV-DO, TD-SCDMA, Mobile WiMAX, and LTE networks) grew 91% over the course of 2007, and we expect a 63% growth rate over the course of 2008, with subscribers expected to rise from 230 million in 2007, to 375 million in 2008.