Monday, 7 February 2011

'EU-Alert' in Release-11

In the recently concluded 3GPP CT-50 in Istanbul, EU-Alert was adopted as part of Rel-11. The EU-Alert is introduced under Public Warning System (PWS) in parallel with Earthquake and Tsunami Warning System (ETWS).

PWS was introduced in Rel-9 and I blogged about it here. ETWS has been around since Rel-8 and was blogged here.

In fact EU-Alert is sent as part of the Cell Broadcast Message (CBS) using new identifiers. For more details see 3GPP TS 23.401.

The following is an old video from CHORIST project, which was instrumental in providing details of working of this EU-Alert system.




Also Read: Commercial Mobile Alert System (CMAS) here.

Thursday, 3 February 2011

4G Mobile Broadband Evolution: 3GPP Release-10 and Beyond

New Report from 4G Americas:

4G Mobile Broadband Evolution: 3GPP Release 10 and Beyond - HSPA+ SAE/LTE and LTE-Advanced provides detailed discussions of Release 10, including the significant new technology enhancements to LTE/EPC (called LTE-Advanced) that were determined in October 2010 to have successfully met all of the criteria established by the International Telecommunication Union Radiotelecommunication Sector (ITU-R) for the first release of IMT-Advanced. IMT-Advanced, which includes LTE-Advanced, provides a global platform on which to build next generations of interactive mobile services that will provide faster data access, enhanced roaming capabilities, unified messaging and broadband multimedia. The paper also provides detailed information on the introduction of LTE-Advanced and the planning for Release 11 and beyond. Release 10 is expected to be finalized in March 2011, while work on Release 11 will continue through the fourth quarter of 2012.

White paper embedded below and is available to view and download from the 3G4G website.


Wednesday, 2 February 2011

Making small purchases simpler with Ericsson IPX

Yesterday a colleague made me aware of this Ericsson's IPX SMS based payment system that looks like a competitor to the NFC technology and doesn't involve any additional chip/hardware. Here is a video:



From Ericsson's website:

Ericsson Internet Payment Exchange (IPX) is a leading mobile aggregator, providing delivery and billing services, via SMS, MMS, web and online mobile billing, to more than 2 billion mobile subscribers across 26 countries. Ericsson IPX also brokers location information in selected countries and Ericsson IPX Messaging provides reach to 96% of all mobile subscribers worldwide with SMS. Ericsson IPX customers are companies who offer digital content, mobile voting & directory information and enterprises offering mobile marketing, communities and banking.

Now, we all love SMS and we have to admit that its the simplest of technology and even the most primitive phone nowadays support it but there could be scenarios when this can be a bit of a problem:

1. SMS can sometimes be delayed if a particular cell is overloaded, etc. So how long do we have to stand in front of the machine?
2. If say for 2-3 mins we do not receive an indication that the machine has a cash, do we send another SMS to cancel the transaction?
3. If we have a problem, do we have a support number to call to? How much will that cost?
4. If there is a queue of people and someone else wants to purchase something as well, does the next person has to wait till the person before has received the item?
5. If two people have sent an SMS, how do they know whose cash is in the machine now? Do we start putting a Pin as well ?

I agree, this technology could be really useful if you have run out of cash (even if you have NFC chip) and you need to purchase something small.

The other obvious advantage is that you can target advertisement at regular users who are at a particular place at a particular time to make them buy something. Also you can get statistics like what time people tend to purchase, what do they purchase, where, etc.

Anyway, hard for me to see this take off big time.

Tuesday, 1 February 2011

6th ETSI Security Workshop

6th ETSI Security workshop was held last month. There were some very interesting areas of discussion including Wireless/Mobile Security, Smart Grids Security, etc.
All presentations are available to download from here.

Monday, 31 January 2011

Wireless Friendly Buildings

Long back I wrote about problems with Radiation Proofed homes. Since then the wireless technologies have got more popular and the technologies in infancy have become mainstream.

Last week I heard Professor Richard Langley from Sheffield University speaking on the topic of wireless friendly buildings. The problem now is manifold rather than just keeping the wireless signal in or out.

Think about the WiFi that is installed in nearly every house. The signals from WiFi are best kept indoors to avoid the interference to neighbours. Wifi uses 2.4GHz ISM band. On the other hand we may want the mobile signal to penetrate the house so that we can get good reception. In Europe UMTS is mostly 2.1GHz and LTE may be mostly 2.6GHz. The intention of the building should be to keep the WiFi signal out and the UMTS/LTE signal in.

The problem we have to remember is that with the frequencies going higher, the penetration of signals are becoming a problem. This means that the construction of the buildings should be modified to keep the attenuation to minimum, higher the frequency.

With femtocells most likely to become more popular by the day, you may want to keep these frequencies from going out of the house but allowing them to come in. This presents a big challenge. The intention of the buildings design in the western world is to keep the cold/heat/radiation out. The concept of 'wireless friendly building design' is the least important in the mind of the architects and civil engineers.

The may change over the time due to effort by the organisations like the Wireless Friendly Building Forum (WFBF).

From an article in Building.co.uk:

At the moment, says Chris Yates, chairman of the Wireless Friendly Building Forum (WFBF), predicting the performance of a building to handle wireless signals is almost impossible. “There is a lot of spurious science around and software that purports to give plots of wireless coverage in a building. It’s utterly naive and doesn’t reflect reality,” he says.

One of the reasons the forum was set up at the end of last year was to co-ordinate research into the area of wireless systems in buildings. As the use of wireless devices increases, more and more issues over performance will arise, explains Yates - and there is nobody taking an interdisciplinary approach on how this performance can be improved.

With wireless looking set to be a mainstay of the way we work in the future, the WFBF ultimately wants to develop a way of defining and assessing its performance in any one building, similar to the way in which BREEAM or LEED rate a building’s environmental performance. “Then a value can be placed on it and developers and end users get interested and it becomes part of their decision-making process,” says Yates.

But until this is achieved, what should designers be doing? Here, we take a look at three wireless applications and the main implications for buildings.

Cellular signals are broadcast by public masts and are actually very difficult to keep out of a building. The main path in is through the glazing, but once inside, things can start to go haywire, with signals reflected or absorbed by the building’s structure.

Columns, lift shafts and risers in particular can create blackspots where reception becomes poor or non-existent. Concrete floors cast on lightweight metal decks will block most signals, as will materials such as lead roofing and the metal foils on the back of some insulation materials.

A common way to deal with this is to boost the signal or re-broadcast it using a repeater. These systems usually use an external antenna to collect the signal, which is transmitted to an amplifier and retransmitted locally. For multistorey buildings, several transmitters might be needed.

Of course, this equipment needs to be accommodated and installed, but when this should be done is a source of some confusion. The current BCO guide to specification does not outline at what stage ICT infrastructure should be installed, but according to Yates some sort of infrastructure provision should be made at the core and shell stage, even if the active equipment isn’t installed.

Signal strength can also be significantly decreased by the use of high-performance glazing and solar shading, which are becoming commonplace with the tightening of Part L of the Building Regulations.

Mitigating action can be taken. Buro Happold’s specialist facade division, for example, is now beginning to consider the effect that facade components have on wireless performance, while also considering trade-offs in acoustic, blast, thermal performance and aesthetics.

According to Yates these trade-offs need careful consideration. Some glass options might give marginally better performance in terms of thermal behaviour, but completely ruin the wireless service, whereas another option might give negligible degradation for a similar price. “

So it is something to think about. It’s no good handing the building over and then telling them there’s no wireless signal,” warns Yates.

The following is an interesting presentation on the related topic:

Saturday, 29 January 2011

Making of the Qualcomm Museum



For Qualcomm, Baker created a corporate museum experience that gives visitors an understanding of what lies at the core of the company’s extraordinary success story.


Thursday, 27 January 2011

Attocell: Smaller Femtocell

Over the last year Femtocells et al. have been slowly rebranded as Small cells and I agree that it is a much more generic term and easier for end users to understand.

Last year, around this time, magicJack announced a small USB Femtocell (a lot of Femto manufacturers disagree that its a Femtocell) that can help reduce the cost of call and just a few days back Picochip announced picoXcell, a USB form factor femtocell.

Yesterday, Ubiquisys announced the Attocell. As can be seen in the picture above, in mathematics, femto is 10^-15 and atto is 10^-18. I know that some of you may think that there is still scope for zeptocells and yoctocells but it may be difficult to see in the light of Attocells, what they can be.

A few years back, I blogged about how Femtocells can be used to steal the spectrum. Well, Attocell legally allows to do just that. The press release states the following:

The attocell connects to a user’s laptop via USB, which provides power and an internet connection. It then analyses the IP address and radio environment to determine which country it is in, and sets its 3G radio power accordingly to below the licenced level. In some countries its range will be just 5mm, in other countries, it could cover a whole room.

Like Ubiquisys femtocells, the attocell continuously monitors its radio environment to ensure that there is zero impact on existing mobile networks. This intelligence, combined with its tiny power output, is likely to make the attocell exempt from regulatory controls and the requirement for type approval.

In 5mm mode, the traveller simply lays the iPhone on top of the device and the phone connects automatically, just like a regular femtocell. Calls can be made using a Bluetooth or wired headset , or by using the iPhone’s speaker.

You can understand more by reading the official Attocell FAQ here.

It would be very interesting to see if any of the big operators support this device. Roaming revenues are big part of operators profit. Informa has predicted that this roaming revenue will keep rising. The roaming revenue comes from voice, sms as well as data. Some business users in one business trip frequently shell as much as a personal user would for a years contract. So its not really in operators interest to promote these devices.

On the other hand, small operators and MVNO may really like this as this can help them win more subscribers and can be the differentiators in the market.

Once more thing worth remembering is that since the arrival of Skype, the occasional and cautious mobile users have no hesitation on making VoIP calls and keeping friends, family and colleagues back home up to date with their status. The operators are aware of this and wouldnt mind the users instead using their mobiles via attocell.

Ubiquisys will show the Attocell in MWC in mid-Feb and we will have to wait and see the reaction.

Wednesday, 26 January 2011

Tuesday, 25 January 2011

MAPCON - Multi Access PDN Connectivity

On Monday, I read Bernard Herscovich, CEO, BelAir Networks saying the following in RCR Wireless:

Wi-Fi is obviously a way to offload data to alleviate congestion, but it also contributes to overall network profitability by delivering data at a lower cost per megabit that traditional macrocells. ABI Research estimates that carrier Wi-Fi can deliver data at 5% the cost of adding cellular capacity. Perhaps the most important driver, though, is the fact that, properly designed and architected, a carrier Wi-Fi network will deliver a consistently great user experience. The implications of that on attracting and retaining subscribers are obvious.

We've also seen cable operators taking advantage of their broadband HFC infrastructure to mount Wi-Fi APs throughout their coverage areas, offering free Wi-Fi as a sticky service to attract and retain home broadband subscribers.

At the GSMA Mobile Asia Congress, back in mid-November, 2010, KDDI's president and chairman explained that while they would be migrating to LTE, which would double their network capacity, data demand in Japan was forecast to increase by 15 times over the next five years. So LTE alone, he admitted, would not be enough. A few weeks before that, European operators, including Deutsche Telekom and Telefonica, were making similar statements at the Broadband World Forum in Paris.

It is clear that LTE alone will not be sufficient to meet ongoing mobile data demand. Technical innovation has resulted in huge capacity gains, but we're now at a point where additional bandwidth is more of a by-product of incremental spectrum. And, we all realize the finite nature of that resource. So, based on this new spectrum, LTE macrocells could deliver a 2 – 4X capacity increase. Meanwhile, ABI estimates that data capacity requirements are increasing 150% per year.

So, it's pretty clear that carriers are going to need more than just an LTE swap out to keep delivering a great user experience. They need to, as many already realize, augment their licensed spectrum with Wi-Fi. KT, the second largest mobile carrier in South Korea, claims to be offloading 67% of their mobile data traffic onto Wi-Fi. There may also be additional unlicensed spectrum made available, at least in the U.S. and the U.K., through the release of so-called white space spectrum, freed up through the switch from analog to digital TV.

It is obvious from the technology point of view that Multiple PDN connections would need to be supported when the UE is using LTE for part of data connection and Wi-Fi for other part. In fact these two (or multiple) connections should be under the control of the same EPC core that can help support seamless mobility once you move out of the WiFi hotspot.

One of the items in 3GPP Release-10 is to do with supporting of multiple Packet Data Networks (PDN) connections for a device. A Release-9 network and the UE can only support 3GPP access based connection via EPC. In Release-10 support for upto 1 non-3GPP access has been added.

FMC100044 specifies the following requirements:

  • The Evolved Packet System supports the following scenarios: a single Operator offering both fixed and mobile access; different Operators collaborating to deliver services across both networks.
  • The Evolved Packet System shall support the access of services from mobile network through fixed access network via interworking.
  • The Evolved Packet System shall be able to support functions for connectivity, subscriber authentication, accounting, Policy Control and quality of service for interworking between the fixed broadband access and Evolved Packet Core.
  • The Evolved Packet System shall optimize QoS and Policy management meaning that it shall offer minimal signalling overhead, while interworking between the fixed broadband access and Evolved Packet Core.
  • The Evolved Packet System shall be able to provide an equivalent experience to users consuming services via different accesses.

The Rel-10 work item extends Rel-9 EPC to allow a UE equipped with multiple network interfaces to establish multiple PDN connections to different APNs via different access systems. The enhancements enable:

  • Establishment of PDN connections to different APNs over multiple accesses. A UE opens a new PDN connection on an access that was previously unused or on one of the accesses it is already simultaneously connected to.
  • Selective transfer of PDN connections between accesses. Upon inter-system handover a UE transfers only a subset of the active PDN connections from the source to the target access, with the restriction that multiple PDN connections to the same APN shall be kept in one access.
  • Transfer of all PDN connections out of a certain access system. A UE that is simultaneously connected to multiple access systems moves all the active PDN connections from the source to target access, e.g. in case the UE goes out of the coverage of the source access.

This work also provides mechanisms enabling operator's control on routing of active PDN connections across available accesses.

The scope of the work is restricted to scenarios where the UE is simultaneously connected to one 3GPP access and one, and only one, non-3GPP access. The non-3GPP access can be either trusted or untrusted.

The design of the required extensions to Rel-9 EPC is based on TR 23.861 Annex A, that provides an overview of the changes that are expected in TS 23.401 and TS 23.402 for the UE to simultaneously connect to different PDNs via different access systems.

See Also:

3GPP TR 23.861: Multi access PDN connectivity and IP flow mobility

3GPP TS 22.278: Service requirements for the Evolved Packet System (EPS)

Old Blog post on Multiple PDN Connectivity