Monday, 15 June 2009

Nokia developing self-recharging phone


Standby mode is often accused of being the scourge of the planet, insidiously draining resources while offering little benefit other than a small red light and extra convenience for couch potatos. But now Nokia reckons a mobile phone that is always left in standby mode could be just what the environment needs.

A new prototype charging system from the company is able to power itself on nothing more than ambient radiowaves – the weak TV, radio and mobile phone signals that permanently surround us. The power harvested is small but it is almost enough to power a mobile in standby mode indefinitely without ever needing to plug it into the mains, according to Markku Rouvala, one of the researchers who developed the device at the Nokia Research Centre in Cambridge, UK.

This may sound too good to be true but Oyster cards used by London commuters perform a similar trick, powering themselves from radiowaves emitted by the reader devices as they are swiped. And similarly old crystal radio sets and more recently modern radio frequency identification (RFID) tags, increasingly used in shipping and as antitheft devices, are powered purely by radiowaves.

The difference with Nokia's prototype is that instead of harvesting tiny amounts of power (a few microwatts) from dedicated transmitters, Nokia claims it is able to scavenge relatively large amounts of power — around a thousand times as much — from signals coming from miles away. Individually the energy available in each of these signals is miniscule. But by harvesting radiowaves across a wide range of frequencies it all adds up, said Rouvala.

Such wireless transfer of energy was first demonstrated by Nikola Tesla in 1893, who was so taken with the idea he attempted to build an intercontinental transmission tower to send power wirelessly across the Atlantic. Nokia's device is somewhat less ambitious and is made possible thanks to a wide-band antenna and two very simple circuits. The antenna and the receiver circuit are designed to pick up a wide range of frequencies — from 500 megahertz to 10 gigahertz — and convert the electromagnetic waves into an electrical current, while the second circuit is designed to feed this current to the battery to recharge it.

The trick here is to ensure that these circuits use less power than is being received, said Rouvala. So far they have been able to harvest up to 5 milliwatts. Their short-term goal is to get in excess of 20 milliwatts, enough power to keep a phone in standby mode indefinitely without having to recharge it. But this would not be enough to actually use the phone to make or receive a call, he says. So ultimately the hope is to be able to get as much as 50 milliwatts which would be sufficient to slowly recharge the battery.
would be a remarkable achievement. . "Radio frequency power falls off exponentially with distance," he says. Earlier this year researchers at Intel and the University of Washington, in Seattle, showed that they could power a small sensor using a TV signal 4.1 kilometres away.

Wireless charging is not intended as a sole energy source, but rather to be used in conjunction with other energy harvesting technologies, such as handset casings embedded with solar cell materials. According to Technology Review magazine, the phone could be on the market in three to five years.

Sunday, 14 June 2009

Verizon's bold step towards IPv6


Verizon is taking bold step of mandating the devices that connect to its LTE Network support IPv6. The following is from Telecom Asia via Network World:

According to device requirements Verizon released earlier this year, any device that hooks onto the LTE network currently being built on the 700MHz band "shall support IPv6" and further states that "the device shall be assigned an IPv6 address whenever it attaches to the LTE network." The requirements make support for IPv4 optional and state that any device supporting IPv4 "shall be able to support simultaneous IPv6 and IPv4 sessions."

IPv6 is a long-anticipated upgrade to the Internet's main communications protocol, which is known as IPv4.

As CircleID blogger and Pennsylvania State University senior systems programmer Derek Morr notes, the adoption of IPv6 is going to be particularly important for wireless carriers that are expecting a surge in mobile data traffic in the next few years, as they will need a fresh batch of Internet addresses to handle the multitude of wireless devices that will hook onto their networks.
"The problem, of course, is that we're running out of IPv4 addresses," Morr writes. "The IANA pool will most likely be depleted by the end of 2010. This has led many people to wonder if LTE deployments will require IPv6. Now we have an answer: Yes."

Verizon is planning to launch its LTE services commercially in 25 to 30 U.S. markets in 2010. The network will be the first mobile broadband network in the United States to be based on the LTE standard, which is the latest variation of Global Systems for Mobile Communications (GSM) technology that is used for 3G High-Speed Packet Access (HSPA) networks. AT&T and T-Mobile have also announced plans to commercially launch LTE networks after 2010, while Sprint has already commercially launched its high-speed mobile WiMAX network.

One of the biggest drivers for carriers upgrading their mobile data networks to 4G technologies is the expected explosion in demand for mobile video services. A recent Cisco study on Internet traffic trends projects that 64% of mobile data traffic will be for video by 2013, vs. 19% for data services, 10% for peer-to-peer and 7% for audio. The study also says that the projected video traffic will increase four-fold between now and 2012

You may also want to read my post on the case for early LTE in USA.

Saturday, 13 June 2009

Android as a platfrom is growing fast

In the past year or so Android has shown its credentials and it can be said we are going to see lots of devices based on Android as a platform.

If I don’t want to be too pedantic then Android is a software platform for mobile devices, powered by the Linux kernel, initially developed by Google and later the Open Handset Alliance. It allows developers to write managed code in the Java language, controlling the device via Google-developed Java libraries. Applications written in C and other languages can be compiled to ARM native code and run, but this development path is not officially supported by Google.

Android platform was first unveiled on 5 November 2007 in conjunction with the announcement of the founding of the Open Handset Alliance, a consortium of 48 hardware, software, and telecom companies devoted to advancing open standards for mobile devices. Google released most of the Android code under the Apache license, a free-software and open source license.

Since the above has taken place a lot has been developed on Android platform in terms of notebooks and mobile phones.

For instance recently Acer said it will produce netbooks based on Google's Android platform. Undoubtedly Android will contribute "significantly" to the growth of the global netbook market just like it will for the Smartphones. The company also revealed that its first Android-based handset would be available in the fourth quarter. Acer had confirmed it would produce an Android phone this year, but had not given a specific time frame.

In other Android news, Garmin-Asus, the smartphone partnership announced in February, said it would produce its first Android phone no later than the first quarter of 2010.

Based on the above developments together with some other, Google’s bullishness is increasingly becoming evident about the growth prospects for Android. Google envisage that that by the end of the year there will be at least 18 handsets on the market running on Android. According to Google this number does not include handset makers using the basic version of Android that have not notified Google of their plans.

Handset manufacturers that have committed to producing Android phones this year include Acer, HTC, Huawei, LG, Motorola and Samsung.

Indeed, the ramping-up of Android phones intensifies a battle among some of the world’s biggest software companies to create the operating system for the world’s phones. Android goes up against a coming-soon new version of Microsoft’s mobile version of Windows; Apple’s proprietary iPhone system; the BlackBerry platform; a new Palm OS for its Pre, called WebOS; Symbian (mostly proferred by Nokia); and a host of Linux-based systems.

Googles Android has certainly added to the competition which is good for the customers but indeed has given sleepless nights to the likes of Microsoft, Nokia etc. Android has unquestionably won accolades as new alternative software for smartphone makers. The first Smartphones with Android on board came out in the United States late last year, and they were made by Taiwan's High Tech Computer (HTC).

I guess the future of application development is going to get even more interesting.

Friday, 12 June 2009

GPRS Roaming eXchange (GRX) for LTE/EPS Networks


The GSM Association (GSMA) has came to the realization that GPRS roaming based on bilateral relationships between individual GPRS operators is incredibly complex and expensive to maintain, in particular if the number of roaming partners is high. In fact, each operator will have to have N(N - 1) dedicated links to other operators (given that N is the global numbers of operators for which roaming should be supported). The GSMA has therefore recommended the use of a GPRS Roaming eXchange (GRX) for the Inter-PLMN GPRS roaming scenario.

The GRX is built on a private or public IP backbone and transports GPRS roaming traffic via the GTP between the visited and the home PLMN (Figure above). A GRX service provider has a network consisting of a set of routers and the links connecting to the GPRS networks. Moreover, the GRX network will have links connecting to other GRX nodes to support GRX peering between networks.

The GRX service provider acts as a hub, therefore allowing a GPRS operator to interconnect with each roaming partner without the need for any dedicated connections. This allows faster implementation of new roaming relations, faster time to market for new operators, and better scalability since an operator can start with low-capacity connections to the GRX and upgrade them depending on the bandwidth and quality requirements of the traffic. Other benefits of GRX are as follows:

Support of QoS: This aspect that will be very important for the GPRS services and, in particular, for the transition to 3G systems.

Security: The interconnection between the home operator and the visited operator uses the private GRX networks, hence does not require the overhead of maintaining expensive IPSEC tunnels over the public Internet.

DNS support: Through GRX it is possible to support a worldwide ".gprs" DNS root, where the various GRX operators will collaborate in managing the root and each operator's DNS servers will be connected to such roots to provide translation of DNS names specific to one operator.

In conclusion, GRX is introduced for GPRS roaming to facilitate the network operators for the interconnection between networks to support roaming and will play a very important role for the transition to third-generation systems.

In the LTE World Summit, Alex Sinclair, Chief Technology Officer, GSMA mentioned about the important role GRX will play in the LTE networks. The figure below are his views on GRX.





Diagram and Initial text Reference: IP in Wireless Networks By Basavaraj Patil, et al.

More information on GRX is available in GSM Association IR.34 document.

Thursday, 11 June 2009

LTE uniting the cellular world technologies

Nice picture from a presentation by Alex Sinclair, Chief Technology Officer, GSMA in LTE World Summit

The fastest and most powerful iPhone is here

Though Steve Jobs was not there, the new iPhone 3G (S) went on display at the Apple's World Wide Developers Conference in San Francisco on June 8. The 'S' stands for speed.

The new improved iPhone 3G (S) helps you download Web pages in a fraction of the time, and you can view email attachments faster.

Improved performance and updated 3D graphics deliver an incredible gaming experience, too.
The new phone can also capture video and boasts an improved capability for taking still pictures.
The iPhone 3G S will hit the market on June 19.

After a string of successes with the iPod and iPhone, Apple is hoping it can keep wowing shoppers with this latest version of its popular mobile handset. The iPhone 3GS will sport a number of upgrades from its predecessors – including a doubled capacity of 32GB; a digital compass; and the ability to record videos.

The larger memory will allow iPhone owners to store up to 7,000 songs or 40 hours of video on their handsets, which they can now download directly from the iTunes store.
Below is the summary of some of the features of this latest iPhone.

Video and 3-Megapixel camera:
You can shoot video, edit it, and share it - all on your iPhone 3G S. Shoot high-quality VGA video in portrait or landscape. Trim your footage by adjusting start and end points. Then share your video in an email.

The new 3-megapixel camera takes great still photos, too, thanks to built-in auto focus and a handy new feature that lets you tap the display to focus on anything (or anyone) you want.

Voice Control:
Voice Control recognises the names in your 'contacts' and knows the music on your iPod. So if you want to place a call or play a song, all you have to do is ask.

Compass:
With a built-in digital compass, iPhone 3G S can point the way. Use the new Compass app, or watch as it automatically reorients maps to match the direction you're facing.

Landscape keyboard, Cut, copy and past:
Cut, copy, and paste words and photos, even between applications. Copy and paste images and content from the Web, too.

Want more room to type on the intelligent software keyboard? Rotate iPhone to landscape to use a larger keyboard in mail, messages and notes.

Messages:
Send messages with text, video, photos, audio, locations, and contact information. You can even forward one or more messages to others.

Search:
Find what you're looking for across your iPhone, all from one convenient place. Spotlight searches all your contacts, email, calendars, and notes, as well as everything in your iPod.

Accessibility:
iPhone 3G S offers accessibility features to assist users who are visually or hearing impaired.
These features include the VoiceOver screen reader, a Zoom feature, White on Black display options, Mono Audio, and more.

Internet tethering:
Surf the web from practically anywhere. Now you can share the 3G connection on your iPhone with your Mac notebook or PC laptop.

Voice memos:Capture and share a thought, a memo, a meeting, or any audio recording on the go with the new voice memos application

Nike + iPod:
iPhone includes built-in Nike + iPod support. Just slip the Nike + iPod Sensor (available separately) into your Nike+ shoe and start your workout.

Stocks:
Stocks on iPhone shows you charts, financial details, and headline news for any stock you choose. Rotate iPhone to see even more detailed information.

YouTube:
Watch YouTube videos wherever you are. Log in to your YouTube account to save and sync bookmarks and rate your favourites.

Wednesday, 10 June 2009

VoLGA: Bringing Voice to LTE

Voice is becoming an Important issue for seamless introduction of LTE services. Even though most people think that LTE will start with the Broadband Dongles, it is important to resolve the issue sooner rather than later.



VoLGA Forum is one such body proposing a solution and its backed by quite a few well known industry players.



In the LTE World Summit, Franz Seiser of T-Mobile Germany spoke about VoLGA. Here is a summary from his presentation:

In order to ensure LTE will be used as much as possible, voice-and messaging services need to be supported on LTE networks in high quality asearly as possible.

The main Drivers being:
  • Ensure acceptance of LTE as an possible next generation PLMN
  • Shift traffic to new network as fast as possible
  • Avoid price competition with DSL
The industry needs a stable, scalable voice and SMS solution forLTE:
  • delivering a seamless user experience (voice hand-over to existing 2G/3G networks)
  • with proven, commercial quality
  • availability in 2010 (SMS) /2011 (voice) latest

In a post earlier, I discussed about the possible voice options for LTE and that generated quite a discussion relating to GAN. Recently Dean Bubley and Martin Sauter have covered this VoLGA issue and in general Voice over LTE in far more detail than I have earlier or even in this post. Please see the links at the bottom to read their post details.

Specified 3GPP solutions for Voice/SMS in LTE do not meet all requirements because:

CS Fallback ruled out due to customer experience and non-LTE usage

  • issues with customer experience (call set-up time increase >1.5sec., no parallel voice/data if legacy network is 2G w/o DTM)
  • not using LTE radio for voice
  • requires changes to Rel-4 architecture MSC-Servers
  • has much more impacts than originally envisaged

IMS based solution has very high complexity; availability and stability notfeasible in time, roaming eco-system is not yet existent

  • solution would consist of IMS platform, various application servers and a major upgrade/change to Rel-4 architecture MSC-Servers
  • no eco-system in place yet for IMS voice/SMS roaming and interconnect (only GPRS data or CS eco-systems are available today)
  • solution requires updates/changes to quite many IT systems and processes as well

Key Objectives for Voice/SMS over LTE Solution is to Re-use as much as possible of existing systems, mechanism and eco-system while avoiding proprietary extensions to 3GPP nodes

  • build upon existing Rel-4 CS network and investments
  • “do not touch the MSC”
  • build upon fully 3GPP compliant Rel-8 EPC/LTE network
  • re-use existing CS roaming/inter-connect regime
  • minimise impact on UE, especially on user-interface

As a result, the simplest solution is “Voice over LTE Generic Access” or VoLGA



What is VoLGA?
  • A technological approach for delivering voice and SMS services over LTE access networks
  • Leverages a mobile operator’s existing core voice network
  • Derived from the existing 3GPP GAN standard

What is the VoLGA Forum?

A group of companies working to…

  • Leverage collective technical skills to define VoLGA specifications
  • Publish proposed specifications via the VoLGA Forum web site (coming soon)
  • Facilitate the easy adoption of VoLGA technology by other vendors and operators

The group is open to interested parties in the mobile community

The main Highlights of VoLGA are:

  • Full service transparency
  • Supports all circuit services over LTE
  • Supports IMS RCS and combinational services (CS+IMS) over LTE
  • Supports handover of active calls between LTE and GSM/UMTS
  • Supports expected LTE femtocell deployments
    • Low risk, low investment
    • Based on well proven 3GPP GAN standard
    • Requires no change to existing MSCs and operational systems
    • Conserves existing, extensive voice interconnection regime


    To keep things simple, VoLGA is the best option available at the moment.

    Further Reading:

    You can search multiple blogs (including mine) in a single search via the 3G4G search here. (Search at the bottom of the page).

    Tuesday, 9 June 2009

    NGMN put into our context

    Here is a slide from Klaus-Jurgen Krath of T-Mobile Germany, which simplifies NGMN for us. NGMN or the Next Generation Mobile Networks intends to complement and support the work within standardisation bodies by providing a coherent view of what the operator community is going to require in the decade beyond 2010.

    You can read more about NGMN here.

    An old whitepaper titled "Next Generation Mobile Networks Beyond HSPA & EVDO" gives much more insight into NGMN vision, mission and details some of their recommendations. Its available to download here.

    Monday, 8 June 2009

    Cell Radius on Different LTE Frequencies

    I mentioned earlier about the cell radius being 300 metres at 2.6GHz. Here is a diagram showing that.

    The Case for Early LTE in the USA

    Doug Wolff,Vice President , End-to-end LTE product management, Alcatel-Lucent spoke about "The Case for Early LTE in the USA" in the LTE World Summit. Here are the main highlights from his presentation:

    Overview of US Wireless Market:
    • With the penetration rate approaching 90% and the economy decreasing, customer and revenue growth are both slowing
    • Data is becoming increasingly important to operators’revenue growth –driven by flat rate data plans and the iPhone
    • Operators are developing new revenue models, including M2M and mobile advertising
    • Consolidation continues --the top four operators have recently purchased: Alltel, Rural Cellular, Dobson and SunComWireless
    • LTE deployments are scheduled to begin in 2009, using the already auctioned 700 MHz and AWS spectrum bands
    • Increase in availability and demand for smartphonesand multi-featured devices
    • Verizon & AT&T, with 60% of the market, focus on network quality and coverage –smaller operators jockey for position with pricing
    • Operators have increased their focus on OPEX cost savings related to network spending
    The US Wireless Users of Future will demand and consume more data. According to a survey done by Alcatel-Lucent, Consumers are more likely to be interested in video, image, location and Business in collaboration, video conference, data transfer. There is a very high likelihood of people signing up for 4G [sic] when it is available.

    The US lags in broadband adoption. It ranked 21st in world in 2008 vs. 6th in 2001. Rural broadband lags urban/suburban areas. 21% of US (nearly 60M people) live in rural areas.

    To encourage Broadband rollout especially in rural areas, Broadband Stimulus Bill has been proposed. The Bill highlights can be seen from the picture:


    LTE can be an ideal candidate as it leverages wireline/wireless assets for rural access in the USA
    • Digital dividend band (700/800 MHz) offers ideal radio environment for rural access
    • Best available backhaul using microwave, GPON and optical aggregation
    • Common aggregation and service routing offers converged access solution


    Along with the technology, focus is also on services, etc. Verizon has recently Wireless LTE Innovation Center to foster the development of new devices and applications for its upcoming fourth generation, long-term evolution (LTE) network (see presentation). The main aim being:
    • Accelerate innovative services
    • Enable new business models
    • Attract open innovation
    • Enable multi-screen experience

    Along with this there is n.g connect program that will help various players in the ecosystem to come together.

    There is also a Verizon Open device/development initiative and they recently released its initial set of technical specifications for devices that will run on its Long Term Evolution (LTE) fourth generation (4G) wireless network. The specifications are available for download at www.verizonwireless-opendevelopment.com.

    So in conclusion, the case for early LTE in the USA driven by End-user demand for enriched QoE and New market opportunities (M2M, rural zone, M-advertising, 700MHz spectrum..). This is being helped by Network & Ecosystem initiatives led by Verizon & Alcatel-Lucent for successful early LTE launch in the USA. Drivers & Enablers of early LTE in the USA are highly relevant in European & Asian Mature markets. An early rollout in USA will encourage early rollout in other markets.