Tuesday, 5 January 2010

3GPP IMT-Advanced Workshop in Beijing



3GPP technical experts have attended the recent IMT-Advanced workshop, in Beijing, China, hosted by the China MIIT Institute of Communication Standards Research (CATR) and China Mobile.
The workshop was chaired by the 3GPP TSG RAN chairman, Takehiro Nakamura, with the first day given over to 3GPP RAN working group presentations and the second to the twelve IMT-Advanced evaluation groups.
3GPP Presentations:
Status reports from the IMT-Advanced Independent Evaluation Groups (IEG):

You can view the agenda of the workshop here.

You can also check all the documents directly here.

Monday, 4 January 2010

LOL, Hitler upset for LTE does not have CS domain

LTE Release-8 UE Categories table


I had posted a table earlier about the LTE UE Categories here. Just came across the 3GPP official UE Categories table today as shown in the picture above.

It would be very interesting to see a device supporting 4x4 MIMO later that can be useful in transferring high amounts of data.

Sunday, 3 January 2010

Interesting Presentation on Mobile Social Networking in Japan


If you have any comments or questions, leave it at the authors blog here.

3G4G Stats

I have been asked very often about the stats of 3G4G website and 3G4G blog. So here are some details:

  • At the peak (Oct.), the combined page views for both of them reached around 100,000
  • In the quietest month (Dec.), the combined page views were around 75,000
  • The 3G4G blog has page views from 22,000 (Dec) to 35,000 (Oct).
  • The popular pages of the Website are FAQ, LTE and LTE-Advanced.
  • The popular pages of the blog are HSPA+ vs LTE, OFDM/OFDMA Difference and F-DPCH.
Glad to see that people are finding both these sources useful. Please feel free to let me know your suggestions and opinions

Thursday, 17 December 2009

Happy Holidays and Happy New Year 2010


Time for break and see you next year...

WiMAX gaining foothold in Japan

Photo Source


The current state of the mobile network environment such as public wireless LAN and the cellular phone lines and those problems were considered last time. This time, the focus is applied to “Mobility WiMAX” of the new service that solves these problems, and it introduces the difference with an existing mobile network. The 2nd explains the point of the IEEE standard by which the specification of mobile WiMAX has been decided.

Mobile WiMAX that the business service started in July, 2009 is a new mobile network that did “Cousin removing” of public wireless LAN and the cellular phone line. It becomes “Communication method of the world standard using the micro wave (frequency band of 3GHz-30GHz)” with WiMAX if it translates literally by the one that “World Interoperability for Microwave Access” was abbreviated.

It is a word “Communication (Access)” the hope of you attention here. “Line from the telephone office to the terminal” is indicated if it is said, “Access line” in the world on the network. In a word, WiMAX is a method to achieve the same role as the accomplishment of “[Furettsu] light” of ADSL and NTT on a wireless network.

Actually, there is details of having started WiMAX as a network for not the mobile network but fixed wireless telecommunications (FWA: Fixed Wireless Access). FWA is a method to send and receive data to the antenna set up in the rooftop in the communication tower and the building between terminals. FWA up to maximum transmission speed 156Mbps is an opening in Japan in December, 1998.

WiMAX is wireless MAN(Metropolitan Area Network) standard to achieve this FWA. Institute of Electrical and Electronic Engineers (IEEE) has approved WiMAX as “IEEE 802.16″ in December, 2001.

The bandwidth of 2GHz-11GHz was added back though WiMAX used the bandwidth of improving named 10GHz-66GHz at first. And, the specification named maximum transmission speed 134.4Mbps (occupation bandwidth 28MHz time) or 74.81Mbps (occupation bandwidth 20MHz time) was fixed by the maximum in “IEEE 802.16-2004″ that had been approved in June, 2004 communication distance 48km.

It has corresponded to the handover at 120km per hour.
It reaches up to 4.8km at the speed of 40Mbps or less.

Mobile WiMAX equipped in mobile PC is a wireless network method settled on as derivation standard “IEEE 802.16e” of IEEE 802.16.

Mobility WiMAX is that the maximum difference point of fixation WiMAX of IEEE 802.16 and mobile WiMAX corresponds to the handover (succession) that assumes the movable body of 120km per hour.

In a word, mobile WiMAX is to be able to use it in the train and the car running just like the cellular phone because a surrounding base station communicates one after another in “Hand over” according to the communication situation. There is especially no inconvenience if it thinks the communication distance of the cellular phone is several km though the maximum communication distance of mobile WiMAX is 4.8km and fixation WiMAX 1/10.

It differs according to the occupation bandwidth, and if it is 32Mbps, and it is 20MHz if it is 15Mbps, and 10MHz if the occupation bandwidth is 5MHz, the maximum transmission speed of mobile WiMAX is 75Mbps. In UQ communications that develop mobile WiMAX service domestically, it is sung, “It is 40Mbps or less, and is up-loading, and it is download and 10Mbps or less”. It may be expected that the same degree of the speed as wireless LAN in the office will be obtained as long as the condition is avoided.

Another difference between fixation WiMAX and mobile WiMAX is in the size of the terminal side transmitter-receiver. In fixation WiMAX where long distance/high speed has been achieved by a big transmission output, a considerably big as for terminal side device is needed. On the other hand, the transmitter-receiver of mobile WiMAX is being put in several LSI chips small. An external type is the same degree of the size as USB thumb drive.

Moreover, note PC with built-in controller for mobile WiMAX has been released by each vender since the summer of 2009. The “Let’snote S8/N8″ series of Panasonic especially supports WiMAX by the standard in the consumer model (A corporate model is for subject).

Another strong point is a base station. Wide, mobile WiMAX covers the range where the electric wave reaches and even if the number of base stations is not increased too much, can cover the large range at the cellular phone level. Because it is possible to communicate while it moves by in the train and car, it will be able to be said that it will be a very profitable network for the business user who frequently uses the Web application.

The maintenance of the base station is advanced in domestic various places with steady steps now. I hear that it became possible to use in the government-designated major city and major cities across the country at the end of fiscal year 2009 according to UQ communications.

Note, this is machine translation so ignore the errors.


Wednesday, 16 December 2009

3G Americas Publishes New Report on LTE SON Self-Optimizing / Self-Organizing Networks

I have blogged about SON networks before. Now has published an educational report titled, The Benefits of SON in LTE, to increase understanding of the improvements in network management that have been developed through 3GPP standards – Release 8, Release 9 and beyond.

Self-Optimizing and Self-Organizing Networks, called SON, can significantly improve network management performance, helping operators and their customers. The 3GPP standards organization is standardizing self-optimizing and self-organizing capabilities for LTE. LTE SON will leverage network intelligence, automation and network management features in order to automate the configuration and optimization of wireless networks, thereby increasing efficiency as well as improving network performance and flexibility.

“The time is right for SON as wireless carriers’ networks have increasing mobile broadband demand and a high level of complexity,” said Chris Pearson, President of 3G Americas. “The good news is that smartphones, netbooks and emerging classes of mobile devices are driving significant growth of wireless data usage. However, operators will need to continue to significantly improve network management capabilities to efficiently meet the demands of this new mobile broadband world.”

The Benefits of SON in LTE describes the motivation behind SON and provides an overview of key SON features contained in Releases 8 and 9 that will serve as a solution for network operators. Motivations for operators to deploy SON include:

  • Wireless service providers must now support a growing number of higher-bandwidth data applications and services on their networks
  • Operators must drive down the delivery cost per bit
  • Radio access network complexity will increase through additions of small cells such as femtocells, picocells as well as WiFi access points to increase and improve coverage and capacity

These and other trends portend ever-increasing demands upon service providers in the areas of network performance and operations.

Initial solutions are offered in the 3GPP Release 8 specifications, which were completed in March 2009, and include SON features such as automatic inventory, software download, neighbor relations and PCI assignment that would be built over 3GPP network management architecture. LTE SON features begin with 3GPP Release 8 and evolve with the expected LTE network evolution stages. In 3GPP Release 9, other SON features are addressed, such as the optimization of coverage and capacity, mobility, RACH, load balancing and support of SON features in multi-vendor network environments.

Other organizations such as the Next Generation Mobile Networks (NGMN) have contributed significantly to the development and standardization of SON at 3GPP.


“Self-optimizing networks are a key part in the future-proofing of network reliability and operational efficiency,” said Dr. Peter Meissner, Operating Officer of the NGMN Alliance. “NGMN established a set of initial requirements and since then has worked with its partners to define the remaining requirements and to drive forward the early adoption in the standardization.”

You can find this whitepaper and many other whitepapers on LTE at the 3G4G Library here.


Tuesday, 15 December 2009

Teliasonera reaches a milestone with first commercial LTE Networks

TeliaSonera has rolled out commercial LTE Networks in Stockholm, Sweden and Oslo, Norway. The Swedish network is supplied by Ericsson and the Norway one by Huawei. At the moment only Samsung Dongles are available for browsing the web.

Read the press release here.

By the way, its a bit shameful that the operator wants to market itself and its using the term 4G for LTE as it probably sounds more sexy :) I blogged couple of years back and it still applies that LTE is 3.9G and IMT-Advanced/LTE-Advanced is 4G.

7Gbit/s can be delivered at 60GHz spectrum

From TechWorld:

The Wireless Gigabit Alliance has completed its specification for a technology to deliver as much as 7Gbit/s over a very high unlicensed frequency band.

The group, backed by wireless heavy hitters including Intel, Broadcom and Atheros Communications, announced the WiGig specification in May and said it would be finished by year's end. Though the standard is now written, it's still undergoing text editing and an intellectual-property review that the WiGig Alliance called routine.

WiGig was designed for very high speeds over a relatively small area, using the 60GHz band. It will have the capacity to deliver high-definition video streams or let users connect laptops to desktop docks and displays, the group has said. It will come to the fast home-networking market behind a few other technologies, including HomePNA, HomePlug, Multimedia over Coax, Ultrawideband and Wireless Home Digital Interface. However, WiGig's strong backing and relationship to Wi-Fi seem likely to give it a major boost.

The WiGig Alliance had said in May the specification would be available to members in the fourth quarter. It is available now to the member companies that helped develop it, but the group hasn't yet created its Adopter membership for companies that will simply use the technology, said Ali Sadri, chairman and president of the group. That will happen in the first quarter of next year, and the specification will be made available to them then. The group will set up a certification system next year and expects consumer products with WiGig to start hitting the market in 2011.

The group originally had said WiGig would have a top speed of about 6G bit/s but has raised that estimate. At that speed, WiGig will have about 10 times the capacity of the fastest Wi-Fi technology today, a form of IEEE 802.11n that offers 600Mbit/s. The 7Gbit/s figure represents the theoretical maximum speed, but the technology is highly efficient, so users should be able to use at least 80 percent of that bandwidth in the real world, Sadri said. On a WiGig LAN, the bandwidth would be shared among all the users on an access point.

Along with the completion of the specification, the WiGig Alliance said it has included a "beam-forming" feature that should allow WiGig networks to work over distances greater than 10 metres. Radios using high frequencies such as 60GHz fundamentally have a harder time transmitting data over long distances without repeaters. WiGig originally was envisaged as an in-room technology, but with the beam-forming feature it could more easily send data and content around a home.

The high 60GHz frequency at which WiGig runs is unlicensed in many parts of the world, including the U.S. The Wi-Fi Alliance is also developing a standard for high-speed wireless LANs at 60GHz, called IEEE 802.11AD, but the Wi-Fi Alliance has said WiGig seems to be complementary to Wi-Fi. Intel, Broadcom and Atheros all plan to integrate WiGig into Wi-Fi chipsets, and it could become part of a "tri-band Wi-Fi" that would let users migrate to WiGig for additional speed where it's available.

The WiGig specification was written so that it could be made an amendment to the 802.11 standards, with backward compatibility, Sadri said.

All WiGig equipment will be able to communicate at the basic level of exchanging IP (Internet Protocol) packets, but the alliance is also developing protocol adaptation layers to optimize the performance of specific applications, said Mark Grodzinsky, marketing chair of the WiGig Alliance. For example, any two WiGig products will be able to stream video to each other, but with a special protocol adaptation layer they might be able to do it with less delay and without compression, he said.

The WiGig Alliance has also announced that Nvidia, Advanced Micro Devices, SK Telecom and TMC, an independent testing and certification lab in China, have joined the group of about 30 companies.

For details see: http://wirelessgigabitalliance.org/