1 Wireless Networks Lecture 3 Evolution of Wireless Networks
2 1G wireless cellular networks ►NMT ►AMPS ►TACS 2G cellular systems ►GSM ►IS-136 ►PDC ►IS-95 Summary of today’s lecture
3 Evolution of Wireless Systems The worldwide success of cellular telephone has lead to the development of newer wireless systems and standards for other types of communications besides mobile voice. For example ►Cellular networks to facilitate high speed data traffic ►Replace fiber optics and copper lines between fixed points several kms apart. ►Replacement of wires within homes, offices etc (evolution of Bluetooth)
4 First-Generation Cellular Networks Analog systems Standards ►NMT (Nordic Mobile Telephone)NMT used in Nordic countries, Switzerland, Netherlands, Eastern Europe and Russia.Nordic countriesSwitzerlandNetherlandsEastern EuropeRussia ►AMPS (Advanced Mobile Phone System)AMPS used in the United States,United States ►TACS (Total Access Communications System)TACS Used in the United Kingdom,United Kingdom ►C-450C-450 in West Germany, Portugal and South Africa,West GermanyPortugalSouth Africa ►Radiocom 2000 in FranceRadiocom 2000France ►RTMI in Italy.RTMIItaly ►In Japan there were multiple systems. Three standards, TZ- 801, TZ-802, and TZ-803
5 Evolution Tree of Wireless Systems
6 NMT First fully-automatic cellular phone systemcellular phone ►Started in 1970, in service 1981 Two standards NMT-450 and NMT-900 ►Corresponds to frequency and the later has higher bands. Cell size range from 2 km to 30 km. ►Use smaller size in urban areas for better quality and larger in less-populated areas. Handsets 1 watt and Car phone uses 6-15 watt Automatic switching (dialing) and handover.
7 NMT Contd. No spec. for voice traffic encryption ►Buy a scanner, tune to the desired channel and intercept. NMT also supported a simple data transfer mode called DMS (Data and Messaging Service) or NMT- Text Using DMS, also text messaging was possible between two NMT handsets before SMS service started in GSM but this feature was never commercially available except in Russian and Polish NMT networks. NMT Suspended ►In Finland TeliaSonera's NMT on December 31, 2002.FinlandTeliaSoneraDecember ►Norway's last NMT network on December 31, 2004.December ►Sweden's TeliaSonera NMT on December 31, 2007.SwedenTeliaSoneraDecember
8 AMPS 1G cellular phone used in US, which uses FDMA Operates in 800 MHz band ►Total of 832 channels; 416 in 824–849 MHz for transmissions from mobile to the base 416 in 869–894 MHz for transmissions from base to the mobile. Each channel is 30 KHz wide Require large bandwidth for large base population. No protection against eavesdropper ►ESN (Electronic Serial Number) was cloned in 1990s to make free calls from different cells. Replaced with D-AMPS, GSM and CDMA for better security and capacity
9 TACS A variant of AMPS developed by Motorola.Motorola It has been used in some European countries (including the UK & Ireland), as well as Japan and Hong Kong.EuropeanUKIreland ETACS was an extended version of TACS with more channels. The last ETACS service operated by Vodafone was discontinued on 31 May 2001Vodafone31 May2001
10 Second-Generation Cellular Networks Digital system i.e. voice is digitized Unlike 1G that relies on FDMA/FDD, 2G use digital modulation formats and TDMA/FDD, CDMA/FDD multiple access techniques Can be divided into two standards; TDMA and CDMA The main 2G standards are ►GSM (TDMA-based), originally from Europe but used worldwideGSM ►IS-136 aka D-AMPS, TDMA-based, used in the AmericasIS-136D-AMPS ►IS-95 aka cdmaOne, CDMA-based, used in the Americas and parts of AsiaIS-95cdmaOne ►PDC (TDMA-based), used exclusively in JapanPDC
11 2G Contd. Using digital signals between the handsets and the towers increases system capacity in two key ways:system capacity ►Digital voice data can be compressed and multiplexed much more effectively than analog voice encodings through the use of various CODECs, allowing more calls to be packed into the same amount of radio bandwidth. multiplexedCODECsbandwidth ►The digital systems were designed to emit less radio power from the handsets. This meant that cells could be smaller, so more cells could be placed in the same amount of space. This was also made possible by cell towers and related equipment getting less expensive.cellscell towers
12 2G Advantages The lower powered radio signals require less battery power, so phones last much longer between charges, and batteries can be smaller. The digital voice encoding allowed digital error checking which could increase sound quality by reducing dynamic and lowering the noise floor.error checkingdynamicnoise floor Going all-digital allowed for the introduction of digital data services, such as SMS and .SMS Better security, harder to be scanned
13 GSM 2.27 billion subscribers across more than 212 countries, 81% of the global mobile market Its ubiquity provides international roaming very common 8-slots TDMA with 200 KHz radio channel, with frame duration of ms The channel data rate is kbit/s Operates in four different bands ►Mostly 900 MHz or 1800 MHz ►US and Canada use 850 MHz and 1900 MHz ►25 MHz bandwidth of each subdivided into 124 channels ►E.g. in 900 MHz, uplink MHz, downlink MHz
14 Others Systems IS-136 or D-AMPS ►3-Slot TDMA, used in North and South America, Australia ►Channel bandwidth is 30 KHz. ►Frequency bands ( MHz and MHz) Pacific Digital Cellular (PDC) ►Japanese standard similar to IS-136 ►25 KHz channel ►11.2 kbps at 3-slot and 5.6 kbps at 6-slot ►Operates in 800 MHz downlink MHz, uplink MHz) ►In 1.5 GHz (downlink MHz, uplink MHz)
15 Other Systems Contd.. IS-95 or cdmaOne ►Supports up to 64 users that are orthogonally coded ►Channel bandwidth is 1.25 MHz ►Widely deployed in N. America, Korea, Japan, China, S. America, Australia ►Channel data rate is Mchips/s (Mega Chips)
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19 Summary of today’s lecture 1G analog systems ►NMT ►AMPS ►TACS ►C-450 2G digital cellular systems ►GSM ►IS-136 ►IS-95 Next Lecture ►3G and 4G