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Sunday, May 18, 2008

How Should Converged IP Networks Evolve?

How should converged IP networks evolve? A very interesting question that has an answer in the way the Telecom standard bodies, network equipment vendors, and the industry as a whole are moving currently. IMS is potentilly one of these directions, and it is a possible direction if the business case supports it. We don't need another WAP or 3G/UMTS hype again. Unlike baseball fields, if you build it, they definitely don't come. Case in point, one very world famous large Mobile Operator stated in its annual report that it would take seventeen years to make a return on the investment made on 3G/UMTS. Seventeen years!!!

Should Cellular be part of this converged IP network evolution? It already is part of it... especially in the Core and Transport parts of the network, and slowly in the Radio Access Network (although I have seen some interesting developments from Cisco in this area).

How can this be achieved? Well, I don't think there is enough space here to start the discussion in detail, but it starts with an internal discussion within your company about cost savings, innovation and what you are trying to achieve by this effort within the overall business strategy of the company.

For example, there are cost savings that can be obtained by consolidating various IP/MPLS back-bone networks in your organization, followed by the organizational operations and systems needed to support and maintain this consolidation. Why? Due to M&A growth in your company, it makes more sense to have one consolidated IP/MPLS back-bone and one consolidated operations than various separate ones. Of course this is a simplistic first start, but a first start towards many more objectives that would have been discussed internally within your company on "why" and "what" as mentioned earlier.

For most (successful) Carriers/Operators, it's about innovation through enhanced capabilities for the future, while obtaining cost savings through organisational consolidation followed by technology convergence.

I think people are too focused on the technical side of converged IP networks, when in my opinion this is not that important, but rather the business transformation needed to deal with converged IP network evolution is ignored or forgotten. This is the hard part where more questions should be asked because this is where the bulk of the issues and problems exist.

In reality there's two different IP convergences going on right now.

First there's the infrastructure convergence. Carriers are quickly realizing the value of a packet switched infrastructure over the traditional circuit switched architectures. For example pretty much every carrier is, has, or will be converting from circuit switched ss7, to ss7 over IP. But the driving factor isn't so much evolution of the design, as it is trying to find cost saving ways to implement the design. Similarly while cellular carriers are starting to block services such as Skype, they're implementing carrier class VoIP to connect their major switching centers to make better use of the circuits they already have.

Second, the other convergence going on is with the customer data. The reason I separate these, is the customer IP data for the most part is tunneled through the wireless infrastructure. While routing of that data is going on, that routing is not based on what data the customer is using. For a wireless device, http traffic and wap traffic traverse the network identically. So where is the convergence here? I think we're just starting to see carriers open up to evolving this part of the network. An example of this type of convergence is with T-Mobile's 'hot spot at home' offer, where your device can make voice calls over wifi from an access point at home, or through the cellular network. To be able to hand off from what is largely still a circuit switched call to a VoIP gateway through the internet is a big step forward.

In a world where carriers make a penny or two per minute of use, I believe it's the carriers who think outside the box who will lead the way. When they learn to leverage cheap outside IP resources (wifi hotspots like above) to bolster their expensive network core then everyone can benefit.

The simple answer... is that IP networks don't care about the transport. SIP (session initiation protocal) and IMS (IP Multimedia Subsystem) provide a way that transport providers such as telecoms who previously shunned application connectivity and API's can now offer integration with a large range of applications and network attached computers. In that context, the IMS layer knows who you are and what kind of network attached computer you're using at the moment, whether that be a PC or a mobile handheld. User experience can then be delivered relative to the capabilities of the device

3GPP and ETSI are working on an architecture called IP Multimedia Subsystem (IMS). This is an architecture to manage network infrastructure in a technology agnostic way to provide a standard way to provision services on top of IP and other network technologies.

Think of it as the SS7/IN standard which allowed the development sophisticated services (number portability, non-geographic numbers etc...) on top of the standard telephony infrastructure.

What IMS will do is effectively abstract out the network technology from the perspective of the user applications.

Though IMS was initially developed by 3GPP... which is a mobile/cellular standards group..... it was quickly adopted by ETSI TISPAN for wireline purposes with some tweaks. Both groups work closely now. IMS has gained a lot of interest from both wireless and wireline operators.

Consequently it's not necessary to worry so much about where IP convergence will go. The impetus to standardise on IP across the board was driven by the need to reduce complexity and gain consistent network services. IMS acts as an abstraction layer and thus to a certain extent deflects the drive for IP convergence. Having said that the cost savings achievable and capacity gains from a uniform network technology platform is still a powerful driver. Given that IP is here and works well, the convergence will continue.

Much of what we have in place now was developed as "art of the possible", meaning best with the technology available at the time.

Once we have invested large amounts of longterm infrastructure capital, there is a damping effect on change. The telephone system is a good example of this - synchronous, highly optimized (channelized and compressed) and "service-ized" (it costs more to print and send the phone bill than it does to provide the actual connection).

Having said this, it is clear that converged IP networks will occur slowly as benefits are realized by the operators. For example, lots of backbone voice traffic is carried on IP but done over a SONET infrastructure.

Following up on cellular - again we have huge investment, international road maps, and vested interests. If we were just starting cellular deployment in 2007 (given WiFi and related technology) would we build it the way it is? Probably not, but we have an existing infrastructure that must play.

The good side of this effect is that things like VoIP were well thrashed out before they were deployed (I'm not talking about Skype or Vonage here).

IP will generally rule. It is designed to work over just about anything (smoke signals anyone?) and has a proven track record. I think the improvements will come in the "routing" protocols rather then in the "routed" protocols ....so there is plenty of room for innovation during periods of wider convergence.

Michael is the owner of FreedomFire Communications....including DS3-Bandwidth.com and Business-VoIP-Solution.com. Michael also authors Broadband Nation where you're always welcome to drop in and catch up on the latest BroadBand news, tips, insights, and ramblings for the masses.

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Broadband - How to Switch

Nowadays, there are so many different choices of broadband provider there's no need to stay with one that's making you unhappy. Thousands of people switch their providers every week, and most find they get a better deal for their troubles.

If you have decided to switch, use a broadband comparison tool to find out what deals are available in your area. Some providers won't be available in your region, so get a clear idea of your options. Take all factors into account, not just the monthly price. Some providers advertise a price of 6.49 per month, but in the small print state that this rises to 12.99 after three months, so watch out for any introductory offers and make sure you'll be able to afford the regular price. Also bear in mind the advertised download speed may be much higher than you could actually get.

Switching can sometimes be difficult, depending on your provider, and it's not a simple overnight procedure. The existing provider will not want you to leave, so they may try and stall your leaving by making it difficult for you to contact them - having a separate department for cancellations which is always 'busy' when you try and call them. Your new provider will attempt to make the change as smooth as possible for you - after all, they want your custom - but they also need assurance that you will be a good customer, so they may carry out a credit check before switching you over.

If your reason for switching is just to get a better deal, speak to your current provider; they may be able to offer you a different package without the hassle of changing providers. This will however reset your contract back to the start, so if you're also unhappy with other factors such as customer service, you can turn this new offer down and ask for your MAC instead.

The MAC is the Migration Authorisation Code, and is a 10-15 digit code needed to transfer you from one provider to another. It enables the BT engineer to locate your connection and pass it on to your new provider. The MAC is mandatory for all providers, and your provider will be breaking the law if they refuse to supply you with one. A MAC is free the first time, but you may be charged if you ask for more than one. The code is valid for 30 days from generation, so wait until you are ready to make the switch before requesting it.

Once you have your MAC, make sure you pass it onto your new provider within 30 days. Your current provider may decide to make things difficult for you at this point; they still control your broadband connection so they could terminate it until the switch is over, leaving you without internet access. Try to avoid getting into dispute with them and you may avoid this.

If you are unhappy with your broadband provider for any reason, you are within your rights to switch, but if you are under a minimum contract you may be charged a fee for leaving before this runs out. Check the regulations of any new for the minimum contract period, and make sure you're ok with this before switching.

Slow broadband? Take a broadband speed test and find out how slow your connection is. Search for cheap broadband with a better speed online.

J Tillotson is a UK author specialising in technology and communications

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