Mobile TV

Mobile TV

Unreferenced|date=December 2007

Mobile TV is television service delivered to subscribers via mobile telecommunications networks, such as the mobile phone carriers. In 2005, South Korea became the first country in the world to have mobile TV when it started satellite DMB (S-DMB) and terrestrial DMB (T-DMB) service on May 1 and December 1, respectively. Today, South Korea and Japan are at the forefront of this developing sector [NYTimes.com via Yahoo! Finance: [http://biz.yahoo.com/nytimes/080506/1194771946810.html?.v=18 Mobile TV Spreading in Europe and to the U.S.] , May 6, 2008] .Mobile TV services have been launched by the operator CSL in Hong Kong in March 2006 on the 3G network. 3G UK: The service is based on the [http://www.3g.co.uk/PR/March2006/2732.htm Golden Dynamic Enterprises Ltd.] 's [http://findarticles.com/p/articles/mi_m0EIN/is_2006_Dec_4/ai_n16881105 "VOIR Portal"] and follows the 3GPP standard 3G-324 M. The same service is also deployed to Philippines in 2007. BT in the United Kingdom was the among the first companies outside South Korea to launch Mobile TV in September 2006, although the service was abandoned less than a year later [ZDnet: [http://news.zdnet.co.uk/communications/0,1000000085,39288247,00.htm BT ditches mobile TV service] , 26 July 2007] . The same happened to "MFD Mobiles Fernsehen Deutschland", who launched their DMB-based service June 2006 in Germany, and stopped it in April 2008 [Broadband TV news: [http://www.broadbandtvnews.com/?p=4682 MFD hands back German T-DMB licence] , May 1, 2008] . Also in June 2006, mobile operator 3 in Italy (part of Hutchison Whampoa) launched their mobile TV service, but opposed to their counterpart in Germany this was based on DVB-H [The Register: [http://www.theregister.co.uk/2006/07/28/dvbh_success_in_italy/ DVB-H rockets ahead in Italy] , 28 July 2006] . Sprint started offering the service in February 2006 and was the first US carrier to offer the service. In the US Verizon Wireless and more recently AT&T are offering the service.

Overview

Mobile TV involves bringing TV services to the mobile phones. It combines the services of a mobile phone with television content and represents a logical step both for consumers and operators and content providers. Mobile TV over cellular networks allows viewers to enjoy personalized, interactive TV with content specifically adapted to the mobile medium. The services and viewing experience of mobile TV over cellular networks differs in a variety of ways from traditional TV viewing. In addition to mobility, mobile TV delivers a variety of services including video-on-demand, traditional/linear and live TV programs. Another exciting opportunity for users is Mobile TV pod casts, where content is delivered to a user’s mobile on demand or by subscriptions. Stored locally on the handset, this content can then be viewed even when there’s no network connection. And a service provider can schedule the delivery to “off-peak” hours, for example during the night.

Technically, there are currently two main ways of delivering mobile TV. The first is via a two-way cellular network and the second is through a one-way dedicated broadcast network. These include digital video broadcasting-handheld (DVB-H), digital multimedia broadcasting (DMB), TDtv (based on TD-CDMA technology from [IPWireless] ), 1seg (based on Japan's ISDB-T), DAB and MediaFLO. None is ideal as all have drawbacks of one kind or another: spectral frequencies used or needed, signal strength required, new antennas and towers, network capacity required, or business model.

Using the existing 3G (WCDMA/HSPA) network is the fastest and easiest way to get Mobile TV off the ground. It allows for the quick start an operator needs to grab the initiative and develop relationships with both customers and content providers. There is more than enough capacity in 3G networks to scale up for a mass market of Mobile TV services, particularly if an operator has HSPA as this will provide for several steps of capacity increases. And MBMS (Multimedia Broadcast Multicast Service), which means broadcast over 3G networks, will soon allow a traffic channel to be shared by all the users that are simultaneously watching the same program in the same area. MBMS complements HSPA to support higher loads in dense areas and ensure efficient network utilization.

However out of the 120 plus commercially launched mobile TV services worldwide, more than 90% of these are based on existing two-way cellular networks, using unicast. With unicast, content is transmitted separately from a single source to a single destination, like from a server to a mobile handset. And that is how each individual can get the content they want. With broadcast, the same content is delivered to a very large number of mobile handsets in a single transmission.

By using a combination of unicast and broadcast, network capacity and investments can be optimized. Broadcast bearers can be used for the most popular programs, and an unlimited number of additional programs and on-demand content can continue to be delivered efficiently using unicast. In the combined unicast–broadcast scenario, the user will not notice any difference in how content is delivered. The user will have a single user interface (TV client) in the terminal to access all content. This combination unicast and broadcast provides the best way to meet personalization and mass market.

In South Korea, mobile TV is largely divided into satellite DMB (S-DMB) and terrestrial DMB (T-DMB). Although S-DMB initially had more content, T-DMB has gained much wider popularity because it is free and included as a feature in most mobile handsets sold in the country today.

Challenges

* Device Manufacturer’s challenges

1. Power Consumption: Battery technology for mobile portable devices may be stuck in a race condition. Improved battery life can be used up by the upgraded mobile content and enhanced functions. However, dashtop mobile devices can also be powered by a 12-volt vehicle battery, however vehicle batteries are not a sustainable source of power for mobile devices. 2. Memory: To support the high buffer requirements of mobile TV. Current memory capabilities available will not be suited for long hours of mobile TV viewing. Furthermore, potential future applications like peer to peer video sharing in mobile phones and consumer broadcasting would definitely add to the increasing memory requirements. The existing P2P algorithms won't be enough for mobile devices, necessiating the advent of 'mobile P2P' algorithms. There is one start-up technology that claims patentability on its mobile P2P, but has not drawn attention from 'device manufacturers' yet. 3. User Interface Design: A large number of mobile phones do not support mobile TV; users have to purchase new handsets with improved LCD display and user interface that support mobile TV. This new design has to appeal to the end-users and increase the clarity of images without making the handset very bulky. The wider LCD touchscreens will be preferred by end-users and iPhone's popularity in the Unites States is part of the compelling evidence.

4. Processing Power: Device manufacturers should improve the processing power significantly to support a MIPS intensive application like mobile TV.

* Content Provider’s challenges

The mobile TV industry opens up a new market for the content specifically tailored for mobile TVs. These could include making new mobisodes –mobile episodes of popular shows which are relatively shorter in length (3 to 5 minutes), modifying the content to suit mobile TV.

Mobile TV standards

European Union feels it's urgent to choose a single standard for mobile TV in European nations.EU seems determined to pick one standard by 2008, and indications are that EU is inclined to back Nokia-led DVB-H, while European broadcasters count on market mechanism.
*GPRS
*3G
*DVB-H/SH
*S-DMB (Satellite Digital Multimedia Broadcast) - South Korea, Japan
*CMMB (China Mobile Multimedia Broadcasting) - China
*MediaFLO - launched in US, trialled in UK and Germany
*ISDB-T (Integrated Service Digital Broadcasting) - Japan and Brazil
*1seg (One Segment) - Mobile TV system on ISDB-T
*T-DMB (Terrestrial Digital Mulitmedia Broadcast) - South Korea, Germany
*DAB-IP (Digital Audio Broadcast) - UK

References

Sources: [http://news.bbc.co.uk/1/hi/technology/6902541.stm BBC]

See also

*1seg
*BCAST - Mobile Broadcast Service via cellular network from Open Mobile Alliance(OMA)
*DVB-SH
*Handheld projector
*IP TV
*MediaFLO
*Mobile DTV Alliance - marketing organization
*3 mobile tv (UK)
*MobiTV
*Sky Mobile TV
*Multimedia Broadcast Multicast Service (MBMS) via the GSM and UMTS cellular networks
*Nunet
*OneTV
*Ortiva Wireless Inc.

External links

* [http://news.bbc.co.uk/1/hi/technology/6902541.stm EU back mobile TV standard]
* [http://www.rthk.org.hk/mediadigest/20070614_76_121465.html Economics] Digital TV Development: Techno-Economic Analyses and Generic Modelling, covering also Mobile TV; Growth factors.
* [http://www.fuelcellsworks.com/Supppage5993.html New Battery Tech Still Years Away]
* [http://www.expway.com/ 3G/DVB-H convergent Mobile TV solution]

References


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