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Enhanced Data GSM Environment. Justin Champion Room C208 - Tel: 3273 www.staffs.ac.uk/personel/engineering_and_technology/jjc1. Enhanced Data GSM Environment. Contents Why do we need it? Increased Data Rate Video-on-Demand EDGE Benefits over GPRS Movement towards 3G Quality of Service
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Enhanced Data GSM Environment Justin Champion Room C208 - Tel: 3273 www.staffs.ac.uk/personel/engineering_and_technology/jjc1
Enhanced Data GSM Environment • Contents • Why do we need it? • Increased Data Rate • Video-on-Demand • EDGE • Benefits over GPRS • Movement towards 3G • Quality of Service • Packet Switched Voice
3G UMTS 2.5 G EDGE GPRS 2 G GSM Enhanced Data GSM Environment • Increased Data Use • As discussed last lecture the introduction of increased data rates technology will take place over time. • Each of these introductions will then allow development towards 3G. • Each of these technologies will be built upon to allow 3G • Last lecture we introduced GPRS • This time we are looking at EDGE • Both are referred to as 2.5G technology
Enhanced Data GSM Environment • Edge • Will allow another step towards the use of 3G • This will allow the infrastructure to grow and improve • Consider what would happen if a network went from 9.6 Kbps data access to 2Mbps in a short time • It would not be able to cope as the companies would not be available to update the entire network infrastructure that quickly • The network infrastructure would not cope and upgrades will be required. • This is already a consideration with EDGE level access • 20 devices receiving a football stream at 200 (reasonable quality) Kbps in a town centre • Base station needs 20 * 200 = 4 Mbps • Now consider how many other base stations are also requesting the same data?
Enhanced Data GSM Environment • Edge • Is now being considered as a replacement for 3G • Vodafone are intending to allow EDGE services this year • Vodafone are pushing Edge now as a 3G technology • It will be available later this year via a data card attached to your laptops • Intended for business data users only initially • Manchester, Liverpool and London are the cities it will operate within • (www.computerweekly.com/Article127287.htm, 2004)
Enhanced Data GSM Environment • The amount of value added services is predicted to increase • To allow a greater choice of these services a higher throughput will be required for the devices • Device will always have limited storage in comparison to what is available for them • A solution to this is to provide those services on-demand and download them. • After use these can be deleted with no impact on the actual device • Video on Demand is an example of this • Location based services i.e. show me a web cam of the inside of the “Peking Temple” restaurant now!
Enhanced Data GSM Environment • Video-on-Demand (VOD) • Two choices for VOD • Stream the entire film across the network in real-time • Sensitive to any delays in the network • A powerful enough server would be needed to supply the demand • Does not need a large amount of storage on the actual device • Download parts of the film in the background to the device and play it when the film is in the storage of the device • Device will need sufficient storage • Some method would be needed to know what a person might be interested in • A pre-registration scheme for example with a football match • A scheme somewhere between the two would be ideal • Part of the video would be downloaded to get the viewer watching whilst the rest would be downloaded in real-time
Enhanced Data GSM Environment • EDGE • Developed by Erricson for the benefit of the loser in the 3G spectrum bidding • Operates at a theoretical 384 Kbps within the current GSM transmission bands • This means that a company who has not paid for out 3G can still provide fast data services • Companies that have bought 3G spectrum, will benefit from the infrastructure put in place for EDGE, as this will be used for UMTS • Current infrastructure • The current Base stations will require a new transceiver and a software upgrade to allow EDGE transmission • This can take place as and when the normal BS are being serviced • This allows for a wider coverage than will be available at least initially with the UMTS network. • Obviously there are still the same issues as GPRS in respect that a channel that is used for EDGE takes one away from a voice call
Enhanced Data GSM Environment • EDGE continued • The data transferred is transferred using 8 Phase shifting Key (8 PSK) • This can change and will be discussed further in a further slide • This allows the transfer of 3 bits in each modulation • Three times GPRS and one of the reason why EDGE is 3x faster • EDGE is more sensitive to errors and as such needs to be close to the transmitter to allow maximum throughput of data
Enhanced Data GSM Environment • EDGE continued • Works the same as GPRS as in a single GSM frame is divided between the transmission • Data Users • A = User 1 • B = User 2 • F = User 3 In this instance we have 3 voice calls and 5 users receiving data
Enhanced Data GSM Environment • EDGE • As with GSM and GPRS will have separate downlink and uplink channels • A discussion is currently taking place regarding the use of 8-PSK • As the internet is a download intensive environment • 8-psk may only be used in the downlink • Uplink may well remain as the GSM GMSK • This will reduce the overhead of the 8-PSK
Enhanced Data GSM Environment • Quality • EDGE uses packets which are physically closer together than the GPRS system • This increases the likelihood of error taking place • Coding Scheme • As with GPRS, EDGE has a number of coding schemes to allow for these errors • They range from • MSC1 to MCS4 (using GMSK modulation) • MSC5 to MSC9 (using the 8PSK modulation) • As with other wireless technologies • The best transmission rate is used to start and then a lower one will be selected until successful communications can take place
Enhanced Data GSM Environment • Quality • The code rate indicates how much of the packet is data (including headers) and how much is error checking code • MCS3 indicates that 15% of the packet is error checking code
Enhanced Data GSM Environment • Packet Handling improvements over GPRS • If a packet is sent which arrives corrupted • GPRS will send the packet again using the same modulation technique • EDGE will lower the modulation technique used and send the packet again. • The lowering of the modulation is a problem • The available data in a new packet is reduced • EDGE allows for resegmentation and the packet being sent again • This allows EDGE to send packets at a rate which would normally corrupted and then resend them again when a error takes place
Enhanced Data GSM Environment • Error checking continued • Receipts for frames • In GPRS a maximum addressing number is 128 • The window for receipts is a maximum of 64 • This means that after a sequence of packets are sent an acknowledgement for the last (at most) 64 packets is sent • If one of these packets were in error that packet must be resent based on the addressing number • This can be an issue with large amounts of data being sent in error as the addressing window will restart again at 0 • Indicating that an incorrect packet maybe resent • In this event the entire frame sequence would need sending again to the device • EDGE • Has increased the addressing number to 2048 and the window is now 1024 • Thereby reducing the chance of lost packets
Enhanced Data GSM Environment • Error checking continued • Forward Error Checking (FEC) • As discussed previously it is better to send some redundant bits with each packet, which in the event of error can be used to mathematically recreate the original packet • Alternative is to send each packet again with an increased rate of FEC • EDGE • Will send the packet again, but the new packet will be combined with the original packet to recreate the corrupted part of the packet • No increase in the amount of FEC bits are sent the same number are sent again, but using different bits. • Correctly received packets • The FEC bits are a waste of available bandwidth!
Enhanced Data GSM Environment • Working out the correct sending rate • This is a particular issue for data communications, rather than voice • To carry this out the radio environment needs measuring • Measuring for Bit error rate, carrier strength, interference, etc. • Once measurements are made the correct coding scheme can be selected • Measurements can be taken on every burst of data sent • These measurements are used to generate the Bit Error Probability (BEP) • Several of these taken can be used to give an accurate reading of the quality of the signal and to calculate the velocity of the device
Enhanced Data GSM Environment • Rollout Stages • Phase 1 • Introduce single and multi-slot packet switched services • Introduce single and Multi-slot circuit switched services • Phase 2 • Web Use • Email • Real-time services • VOIP • Video Conferencing
Enhanced Data GSM Environment • Interleaving of data • The data is sent in bursts • These bursts refer to the amount of information sent • If one of the bursts arrives corrupted the entire burst sequence needs sending again • A radio block • The sequence of the packets being sent is referred to as a radio block • GRPS • The radio block are interleaved into 4 • EDGE • The radio block are interleaved into 2 • Increased throughput • The potential for interference in the EDGE system has now been reduced by a half • Assuming all other factors remain the same
Enhanced Data GSM Environment • Infrastructure • will not need adding to from the GPRS environment (www.ericsson.com/products/white_papers_pdf/edge_wp_technical.pdf, 2003)
Enhanced Data GSM Environment • Infrastructure • Changes • Base station System GRPS Protocol (BSSGP) • Different quality of services are required require minor changes to the GPRS standards • The other changes are obviously taking place in the layers 0 and 1 of the device and the base station • A EDGE Based device will be able to communicate with GPRS • If a EDGE based service is not available at the time
Enhanced Data GSM Environment • QOS classes • The classes which are supported by EDGE are the same as UMTS • Conversational • Real-Time communications highest priority • Two way communications • Streaming • Video – audio files, time dependent • One way communication • Interactive • WWW usage, telnet etc • Reduced request response time • Background • SMS, email, MMS • Best effort delivery • Each of the communications will be issued with one of these classes. • This will depend ion the technology being used for EDGE
Enhanced Data GSM Environment • Problem with the installation of EDGE • No Killer App YET ! • There is no reason at this stage for user to want a EDGE based phone • Potential killer app maybe the downloading of music • Apples i-pod (http://www.apple.com/ipod/, 2003) • Allows the downloading of music onto the device, with 20Gb of storage • Consider if these songs were downloaded in the background of your phone and you pay for them. • You specify and pay for the album a few days in advance • Albums available to you the second they are released • Massive potential, with records that shops usually sell out of
Enhanced Data GSM Environment • Key Points • Builds upon GSM and GPRS • EDGE allows a theoretical 384 Kbps • 8-PSK • Improved error handling over GPRS • Will operate at GPRS, GSM data rates in EDGE is not available
Enhanced Data GSM Environment • Summary • Why do we need it? • Video-on-Demand • EDGE • Benefits over GPRS