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Announcing the Real Wireless 4G Mobile Blog

At Real Wireless we continually track the market status of next-generation mobile technologies, for our own benefit and for several of our clients. We’ve decided to create a dedicated 4G mobile blog to start posting links to news stories, reports and events which we think are significant as a service to those who follow our main blog.
“Next Generation” here means LTE, LTE-Advanced, WiMAX (IEEE 802.16e, 802.16m) and related technologies. We have reluctantly included “4G” in the page title. Anyone closely involved in the field knows that doesn’t mean anything much, but we want to help people find the news.
If you want help in interpreting the significance of the stories, and how they impact your own business/technology strategy, please contact us. And watch this space for lots of hot stories!

LTE World Summit 2010 – quick observations

I was lucky enough to attend Informa’s LTE World Summit last week on behalf of Femto Forum. A great event, with enormous opportunities to quiz the great and the good of the industry on their views and experiences with LTE (I even got snapped doing that last year). I also acted as a judge for the LTE Awards.

There was far too much to report on in detail, but a few overall impressions were:

  • It’s all getting very real. And when it works, it works really well. I got to talk to some folks who are actual commercial users of the TeliaSonera network – the only commercial one today. They said they wouldn’t dream of going back to ADSL now. And that they use LTE in preference to their office network when video conferencing.
  • Devices are in short supply. Nothing new there in a new mobile technology (remember how GSM used to stand for “God Send Mobiles”), but this time around it’s complicated by the 20-odd frequency bands supported by LTE, the advent of dongles as well as handsets, the need to support the legacy technologies as well (GSM, UMTS, HSPA(+), CDMA,…), multiple modes (TDD and FDD) and so on. There is some prospect for more flexible device technologies to help with this complexity (watch out for the clever folks at Lime and Cognovo, for example), but that’s unlikely to solve the issues in time to help with early launches.
  • Trials are going well and generally the technology is doing what it set out to achieve (just as our associate Julius was able to establish in his time chairing the LTE/SAE Trial Initiative). But they are also throwing up concerns, such as Telefonica reporting that indoor coverage from their 2.6 GHz trial in London was ‘disappointing”.
  • No-one knows quite what LTE will be used for. But that’s nothing new – hands up who predicted the explosion of dongles back in 2003 when 3G networks were first being launched? No-one? Thought not. But those are expensive networks, so funding large-scale roll-out in the near future with no clear idea of what customers are paying for is pretty challenging.
  • Femtocells will be part of LTE networks. That might not seem a big surprise coming from me, but there really does seem to be wide-spread acceptance that the topology of LTE networks needs to be different to previous networks  in order to deliver on the promised performance, supported by the recent completion of the 3GPP Release 9 standard which provides for a full end-to-end LTE femtocell network. Why? See the recent Femto Forum white paper on the topic.

I’m already looking forward to another big  next-generation mobile conference: 4G World in Chicago in October.

Wireless, Infrastructure and Climate Change

I have just been appointed to a joint government/engineering profession committee looking into ways in which UK  infrastructure can be adapted to be resilient against the effects of climate change. “Infrastructure” here includes energy, telecommunications, transport and water systems.

This is part of a major governmental programme which aims “to identify and examine strategic solutions to improve the long-term resilience of new and existing infrastructure in the energy, telecommunications, transport and water sectors to future climate change impacts.” It is run in partnership with the Royal Academy of Engineering‘s  Engineering the Future group.  My role is to advise on issues related to radio propagation in the broadest sense.

Of course, we all hope that the impacts of climate change can be minimised by appropriate and prompt action. But it’s exceedingly unlikely that the impacts can be avoided entirely, so it’s also important to plan for the future and ensure that any avoidable impacts are taken into account. Wireless infrastructure has at least the potential to be resilient across a range of situations if it’s designed with these in mind – and it isn’t at the moment. Perhaps more relevant, wireless technology can be used to monitor the status of many other systems and to control and adapt their behaviour accordingly. One example might be the use of wireless mesh networks which can ‘self heal’ by rerouting links to adapt to the loss of any individual unit(s).

This promises to be an interesting – and potentially worthwhile – appointment. I’ll update when outcomes are made public.


PS – The map above shows central estimates of temperature change in °C from the 1961-1990 baseline in the 2080s, for a  “medium emissions scenario”. From Defra’s UK Climate Change report, 2009.

In-building wireless certification programme in full swing

During last year we worked closely with iBwave Solutions to develop an in-building certification programme, which we announced last June.

We developed modules on topics including antennas for in-building systems, the fundamentals of propagation modelling and the combination of measurements and models for efficient in-building system design. The topics were illustrated via practical examples from real buildings, modelled using iBwave’s iBwave Design suite of tools.

Now we don’t usually endorse specific tools, but in this case there really is nothing else on the market which comes close to providing the same breadth of capability for practical modelling and design of a very wide range of  in-building wireless systems. We have stretched the tools to their limits in some challenging projects involving LTE, femtocells, and UMTS operated in both indoor and outdoor environments, and the nice folks at iBwave have always provided a high level of support and in several cases have enhanced the tools’ capabilities to meet our needs.  But one thing we have long felt lacking in the industry was some form of qualification for engineers who need to develop and demonstrate the appropriate level of capability to take on challenging in-building designs.

So it’s great to see that the programme we helped to develop is now being run world wide and is helping to professionalise an important sector of the industry, helping enhance the capacity and quality of mobile networks in some of the most challenging and important environments.

40 years of spectrum management experience in a free white paper!

Mike Goddard, International Spectrum Policy Advisor at Real Wireless, has set down his hard-won experiences of spectrum management at the highest level in an informative white paper, available for download here:

whyhowwhere_coverThe Why How and When of Spectrum Management

This paper is based on a talk Mike gave last year – full details in the paper.

Do feel free to post your comments on the issues raised in the paper.