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The Latest Step in Cellular

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The dream situation was to have a single standard which worked globally ... A live video stream from a device is a good example, where in the event of a ... – PowerPoint PPT presentation

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Title: The Latest Step in Cellular


1
The Latest Step in Cellular
  • Justin Champion
  • 3292 JJC1_at_staffs.ac.uk

2
Content
  • What we will look at
  • Where from

3
Handover 2.5 to 3G
  • Although one of the things which was recognised
    quickly in 1G was the lack of a Global standard
  • 2G attempted to fix this with GSM
  • Which is dominant throughout the world, but not
    the only technology
  • The same was true for 2.5G with multiple
    standards being developed Globally
  • CDMA2000
  • EDGE
  • This was actually an enhancement of GPRS
  • The dream situation was to have a single standard
    which worked globally
  • A single device anywhere on the planet, fully
    interoperable

4
3G Reality
  • Unfortunately in reality there was always going
    to be differences
  • Different areas of the radio spectrum were used
    for different things
  • This was still true even within GSM and they had
    to use Quad band phones to allow them to work
    everywhere
  • Differing infrastructure already in place
  • If 3G was based purely on GSM as the dominant
    technology then operators of CDMA would need to
    invest more, GSM operators a lot less
  • Modulation method
  • Agreement was needed on how best to transfer and
    receive the signals
  • Local Influence
  • Mostly manufacturers who had invested large
    amounts in a single technology

5
3G Standard
  • The Standard which we now as 3G is based on
    IMT-2000
  • This was developed and agreed by the
    International Telecommunications Union (ITU)
  • These are a group which is based on Geneva and
    operate as a part of the united nations
  • Each country can then contribute a member to
    represent them in the meetings
  • ITU is broken into sub groups looking at all
    types communication standards the group which
    looked at 3G was ITU-T (telecommunications)
  • http//www.itu.int/home/index.html

6
3G Standard
  • The IMT-2000 among many other items defined
    standard throughputs for different kinds of
    access
  • 2Mbps in fixed or in-building environments
  • 384 kbps in pedestrian or urban environments
  • 144 kbps in wide area mobile environments
  • Variable data rates in large geographic area
    systems (satellite)
  • Every possible item within a mobile
    infrastructure was also defined as the standard
  • Only by doing this can they be sure of
    interoperability between the operators

7
3G Standard
  • Out of these IMT-2000 standards came three
    implementations
  • UMTS - Europe
  • CDMA2000 - America
  • TD-SCDMA China
  • To add to the confusion
  • The specification group for UMTS was called 3GPP
  • Developing the standards for the UMTS system
    which is built upon GSM
  • Developed by ETSI
  • The specification group for CDMA2000 was 3GPP2
  • Developed the standards building upon the US CDMA
    networks, specifically the CDMA-2000 standard

8
3G Standard
  • Despite this what was now available at least as a
    standard was an improved air interface to mobile
    devices
  • In theory they would now operate at 2 Mbps, which
    makes the mobile quicker than a lot of ISP ADSL
    connections to the home
  • The hope for this was to build upon the
    developments of 2.5G and offer the end user even
    more services
  • Companies who were making use of the technology
    to get an even quicker response time
  • Downloading 500 Kilobytes of email
  • GPRS 1 minute 11 seconds
  • UMTS (3G) 1 Second

9
GSM Based 3G
  • The technology which followed on from GPRS within
    the GSM infrastructure
  • Was Universal Mobile Telecommunication System
    (UMTS)
  • This was the next step in the evolution of GSM
  • UMTS built upon the infrastructure changes which
    took place from GSM and GPRS
  • This basically meant that the upgrade was
    reasonably quick and cheap as everything was not
    thrown away and was built upon
  • UMTS standardised in the areas of
  • Radio
  • Core Network
  • Terminals
  • Services

10
UMTS and Data services
  • The development of 3G communications has given
    many things to the cellular infrastructure
  • The data rate has increased from GPRS
  • Although 2 Mbps is advertised and this is
    possible to achieve
  • In reality as with a lot of technologies it will
    rarely be achieved
  • If your computer application requires this sort
    of throughput, then 3G cellular at the moment
    would not be the correct solution to the problem
  • The actual throughput you receive will depend on
    a number of factors
  • It even depend on the type of cell you are
    attached to
  • Within GPRS there was only a single kind of cell
  • Within UMTS there are different cells which offer
    differing throughput rates

11
UMTS Cells
  • Types of Cells
  • Macro Cell
  • These cover a large area and will give slow
    access
  • 144 Kbps max speed of 500 Km/h
  • Micro Cell
  • These should cover a medium area
  • 384 Kbps max speed 120 Km/h
  • Pico Cell
  • Less than 100 metres
  • 2 Mbps max speed of 10 Km/h
  • Difficult to predict
  • Actual distances and bandwidth depend on local
    conditions

12
UMTS Updates
  • The Use of UMTS involved some updates to
    infrastructure
  • Everything which had been installed as a part of
    GPRS was still used for the same role
  • The base stations needed to have a hardware and
    software upgrade
  • UMTS uses a different modulation technique called
    Wideband Code Division Multiple Access (W-CDMA)
  • The software within the base station needed to be
    updated to allow the use of this and the new
    packet requirements
  • Some of the components were renamed as well

13
UMTS Coverage
  • The actual coverage as well will have an effect
  • There was some changes which need to be done to
    base stations within UMTS
  • This is due to the way that the air interface is
    modulated meaning a change of hardware was
    required
  • Although the UMTS services are being rolled out
    they are not covering every part of the UK
  • If you go to the operators website they will show
    you where is covered and where is not
  • This is the map for Vodafone Jan 2007 for
    Stafford
  • Eventually all of the UK will be covered
  • In the event of communicating and your chosen
    service is not available you will connect to
    another service

14
UMTS Data Services
  • To make use of these new services the devices
    themselves have changed
  • Although the physical size can not change much
    due to usability issues
  • The amount of items which can be put into the
    device has changed
  • This increased computing power within the device
    has allowed additional services to the devices
  • A range of current UMTS based devices can be seen
    here
  • http//www.umtsworld.com/industry/3gphones.htm
  • The use of the Internet to drive the technology
    to the handset has also given additional services
  • Although the screens are most the wrong size,
    increasingly websites have mobile versions of the
    website i.e. news.bbc.co.uk
  • Not all of the services which are tried will be
    successful but they are tried and then if not
    they move on
  • Who would have guessed that Crazy Frog would have
    made 14 million from the ring tone alone ?
  • http//www.timesonline.co.uk/article/0,,2095-15124
    82_1,00.html, 2005
  • Although it has to be said that UMTS is not
    needed for this technology

15
UMTS Data Services Packet Switched
  • One of the items which was discussed for GPRS was
    the change over to packet switched communications
  • Packet switched is a lot more efficient in
    sharing a medium
  • The problem is that you can not guarantee that a
    packet will be delivered in a timely manner
  • This is not always important, sometimes it just
    does not matter
  • Email is a perfect example of this, all that
    matters is that the packet arrives eventually
  • Within UMTS all communications will be packet
    switched, not just the data communications
  • The voice communications will also be packet
    switched as these are more efficient and free the
    air interface for increased data communications

16
UMTS Data Services QOS
  • UMTS added to the infrastructure Quality of
    Service
  • What this allows is that a packet can be tagged
    as to the level of importance it has
  • On this basis its priority when being forwarded
    is then based on this level of service required
  • A live video stream from a device is a good
    example, where in the event of a large number of
    delays the quality of the transmission will be
    ruined
  • Not normally a problem but consider if this was
    ruined by a large amount of email being sent on
    the network
  • Email has no requirements for delivery times, if
    there is a 5 second delay in the delivery it is
    not the end of the world

17
UMTS Data Services - QOS
  • UMTS offers four levels of QOS
  • Each communication will be allocated one of these
    classes

18
Data Services
  • The use of UMTS has given real and usable data
    services to handsets and devices which attach to
    the network
  • Still the largest use of data services within the
    networks is the growth of messaging services
  • The development of GPRS and UMTS has allowed for
    these messaging services to develop and provide
    more
  • But the oldest and simplest Text messaging is the
    most popular
  • Below are the growth figures for handset Internet
    usage

http//www.text.it/mediacentre/wap_figures.cfm
19
Messaging services
  • As we discussed in a previous lecture the
    development of messaging services within 2G was
    massive
  • Short Message Service (SMS)
  • This then gave the operators an idea of how much
    money could be made from non voice services
  • Actually SMS was not a data service and was a
    part of the Teleservices
  • Which was the voice part of the system
  • The growth of SMS was not planned for in the
    network and was not expected
  • SMS was simply intended to replace the pager
    network
  • The advantage that SMS took off was the ability
    to send a message between users
  • The communications were two way
  • The user did not even have to be on the same
    network as long as there was a connection
    agreement between them
  • To exchange the messages
  • Only the sender had to pay for the message
  • The fact that all of the European operators used
    the same technology also allowed for easy
    expansion
  • This was not true in other parts of the world

20
Messaging services
  • Usage Figures
  • The first message was sent on the 3rd December
    1992 to the Vodafone network
  • Since then the growth has been beyond any sort of
    expectation

http//www.text.it/mediacentre/sms_figures.cfm
21
Messaging services
  • The messaging network though has grown and has
    taken advantage of the advances in the data
    services of the operators
  • In addition there was improvements in the
    developments of handsets and the services which
    they operated as well
  • Two new services were released to enhance the
    limits of SMS
  • 160 characters, mainly intended for the ASCII
    character set
  • Although this can change, but not upwards 160 is
    the maximum
  • Enhanced Messaging Service
  • Allowed additional data to be sent beyond SMS
  • Text formatting
  • Simple graphics to be transferred
  • Multimedia Messaging Service
  • This service allowed for full multimedia to be
    embedded into a message
  • Allowing the enhancement of the message, with
    audio graphics, video, actually whatever you
    wanted
  • The same as the internet all that mattered was
    the fact that the recipient could interpret the
    data

22
Messaging services
  • Enhancing the message

EMS
MMS
SMS
23
Messaging services
  • MMS Multimedia Standards
  • The following are the current standards
  • The standards can be expanded in the future
  • This is a list of base requirements for devices
    to be given the title of MMS compatible
  • Pictures
  • JPEG, GIF, PNG, SVG-Tiny (2D Vector Graphics)
  • Movies
  • MPEG-4
  • Sound
  • SP-MIDI
  • Adaptive Multi Rate (AMR)
  • Text
  • ASCII Text
  • UTF 8/16
  • Future Use
  • Allows unlimited expansion

24
Messaging services
  • MMS Delivering a possibly large message
  • SMS was delivered in a single packet
  • MMS can have a theoretical unlimited message size
  • In reality the operators/devices will control the
    size of the messages
  • This indicates that the message can not be
    delivered in a single packet
  • MMS Transport
  • MMS packets will be transferred using the WAP
    protocol using bearer service rather than
    teleservices as with SMS
  • This gives security in the messages
  • Access to the Internet to move MMS message if
    needed to the Internet
  • MMS Delivery continued
  • MMS message will be transferred in the spare
    capacity
  • The media will be trickled to your device
  • You will only be informed of a message once all
    of the data is in the device
  • If you device does not have the storage to
    display a movie, then the data can be streamed
    into your device
  • Reducing the overhead for storage, but increasing
    the overhead for the network.
  • This will not be available until 3G (UMTS in
    Europe)
  • MMS is not platform dependent
  • Meaning that any mobile system can use this
    technology

25
Data Services
  • Although the original usage of MMS was limited
    this is slowly growing
  • Orange announced in Dec 2007 that there was a 37
    increase in MMS usage
  • (http//www.smstextnews.com/2007/12/mms_up_37_in_t
    he_uk_since_may_.html, 2008)
  • The final usage of 3G data services at the moment
    is not known
  • Although one consideration might be that there is
    no Killer application for UMTS
  • It may be like the Internet where there is no
    single application which everyone uses instead it
    is a lot of applications with the benefits of
    them all
  • In the end this will be a better result as
    devices will then remain general rather than
    customised to specific needs
  • By keeping the handsets generalised this allows
    for the development of new and as yet recognised
    services to be introduced to the market
  • A lot of the new popular technologies are
    developed and become popular without any
    advertising pushed towards them
  • SMS and youtube being the perfect examples

26
Data Services
  • From a computing point of view though
  • The 3G data services open the devices to a large
    amount of freedom
  • The handheld devices which are attached to the
    network have a large amount of capabilities now
  • These can be used by developers
  • Growth can be seen in video usage
  • Games
  • General Internet Usage
  • Email reception
  • We can use the technology to develop new
    applications
  • These could be for entertainment i.e. a games
  • Announced in Dec 2007
  • Possibly 17 billion per year by 2011
  • http//www.pocketgamer.co.uk/r/Mobile/news.asp?c2
    886
  • Business Types applications
  • Enhancing what they do
  • Or extending

27
Conclusion
  • What we have looked at today
  • Why the 3G standard
  • 3G communications
  • Messaging Services
  • Data service and what can be done with them
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