wireless personal communications systems – cse5807
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Wireless Personal Communications Systems – CSE5807. Lecture: 04 Stephen Giles and Satha K. Sathananthan School of Computer Science and Software Engineering Monash University Australia. These slides contain figures from Stallings, and are based on a set developed by Tom Fronckowiak. - PowerPoint PPT PresentationTRANSCRIPT
1Wireless & Personal Communication Systems – CSE5807Lecture: 04
Wireless Personal Communications Systems – CSE5807
Lecture: 04
Stephen Giles and Satha K. Sathananthan
School of Computer Science and Software Engineering
Monash University
Australia
These slides contain figures from Stallings, and are based on a set developed by Tom Fronckowiak .
2Wireless & Personal Communication Systems – CSE5807Lecture: 04
Wireless Networks
Limited bandwidth.
Noisy channel and Multipath propagation.>> Interference.
Limited coverage => Roaming
Security.
Power consumption.
3Wireless & Personal Communication Systems – CSE5807Lecture: 04
Wireless Networks
1001010.1 Mbps
Vehicle
Walk
Fixed
Walk
FixedIndo
or
O
utdo
or
Wideband CellularG
SM
, CD
MA
WLAN
WPAN
LAN
WAN3G
2G
WPAN – Wireless Personal Area Network
4Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Systems• First Generation Systems: Analog
– Advanced Mobile Phone Service (AMPS): US, Australia, Southeast Asia.
– Total Access Communication System (TACS): EU
– Nippon Telephone and Telegraph (NTT): Japan
• Second Generation Systems: Digital– Global System of Mobile communications (GSM): Europe, Asia
– Code Division Multiple Access (CDMA) systems (IS-95): US, Asia
• Third Generation Systems: Digital & Packet switching– Wideband CDMA
– CDMA2000
5Wireless & Personal Communication Systems – CSE5807Lecture: 04
Wireless Channel• Compared to wire/fiber, mobile radio channels have major problems with noise and interference.
- Environmental effects. - Large amounts of noise. - Leakage from adjacent channels and distant transmitters on the same channel. - Multi-path fading (Rayleigh) and Doppler effect.
• Signal coverage:- Essential for deployment of wireless networks.- Influenced by the radio frequency of operation, transmitted power and the terrain.
6Wireless & Personal Communication Systems – CSE5807Lecture: 04
Wireless Channel
TxRx
Diffraction
Reflection
Scattering
7Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts
• The concept of cellular radio emerged in the late 1940s as a potential technique for getting around the
limitations on available frequencies. • A large number of low-power transmitters, one per "cell“.• A range of frequencies allocated to each cell.• Frequency allocation such that co-channel interference is limited.• “Hand-over“ (handoff) techniques for mobile units moving from cell to cell.
8Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts
coverage
coverage
Base station (BS)
coverage
Backbone Network
• To transmit signals on a particular frequency band with “limited power” so that the same frequency band can be reused in other location.
9Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts
• Areas divided into cells:– Each served by its own antenna => multiple low-power
transmitters.
– Served by base station consisting of transmitter, receiver, and control unit.
– Band of frequencies allocated.
– Adjacent cells assigned different frequencies to avoid interference or crosstalk.
=>> Frequency reuse.
10Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Frequency Reuse
4-cell frequency reuse (N=4)
7-cell frequency reuse (N=7)
11Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Frequency Reuse
• N = Frequency reuse factor• R = Radius of a cell• d = Distance between centers of adjacent cells • D = Minimum distance between centers of cells that use the
same band of frequencies (cochannel)• K = Total number of channels (frequency bands) allocated to
the systems.
R d
D
12Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Frequency Reuse
,...21,19,16,13,12,9,7,4,3,1
,.....2,1,0, )(22
N
JIJIJIN
N
KNcpc
Rd 3
• In a hexagonal cell pattern:
NR
D3
• If each cell is assigned equal number of channels, then the number of channels per cell:
• Maximum number of simultaneous users in the system:
KNN clusterseoususerssimul tan
13Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Interference and Capacity
• Interference affects reuse plan.
• Major interference:
- Cochannel (or same frequency interference): => most important.
- Adjacent Channel: => less important.
• A smaller number of frequency reuse plan has:
Wider available bandwidth in each cell.
Higher interference.
14Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Cochannel Interference
7-cell frequency reuse (weaker)
4-cell frequency reuse (stronger)
15Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Adjacent Channel Interference
wanted
Interference
…
pow
er
Adjacent channelinterference
Frequency band of the mobile phone
16Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Cells• Different sizes and types of cells are used in a cellular network. The
choices of a cell depend on the bandwidth usage in a region.
- Macrocells: - Used to serve low density traffic area.- Tens of kilometers, served by base stations.
- Microcells: - Used to serve high density traffic area.- Hundred of meters to a kilometer, supported by a rooftop level base station antenna.
- Sectored cells:- Used to reduce cochannel interference.
- Umbrella cells: - Used to reduce the need for handover in microcells.
17Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: CellsLarge cells are used to serve low traffic areas.
Microcells are used for high traffic demand regions.
Umbrella cells are used in areas where users are moving fast from one cell to another (eg. freeways)
18Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Sectored Cells• Some commonly used sectored cells:
• The output power of an antenna in a sectored cell:
-3dB
coverag
e
antenna
Rhombic Hexagonal Triangular
19Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Interference in Sectored Cells
interference
7-cell frequency reuse
• Each sector is operated at a different frequency band.
• The number of main interference is reduced from 6 to 2
20Wireless & Personal Communication Systems – CSE5807Lecture: 04
Spatial Diversity Multipath in wireless transmissions results in
“Rayleigh Fading” (or fast fading).
Multiple antennas are used to receive signals from a mobile phone to reduce Fading effects.
Base stationtower
Two receivers
21Wireless & Personal Communication Systems – CSE5807Lecture: 04
Cellular Concepts: Increasing Capacity
• Adding new channels.
• Frequency borrowing:– Frequencies are taken from adjacent cells by congested cells.
• Cell splitting: – Cells in areas of high usage can be split into smaller cells.
• Cell sectoring: – Cells are divided into a number of wedge-shaped sectors,
each with their own set of channels.
• Multiple Antennas:
22Wireless & Personal Communication Systems – CSE5807Lecture: 04
Operation of Cellular System
23Wireless & Personal Communication Systems – CSE5807Lecture: 04
Operation of Cellular System• Mobile equipment (ME):
– Physical terminal, includes radio transceiver, digital signal processors and subscriber identity module (SIM).
• Base Station (BS):– Includes antenna, controller, and a number of receivers.
– Use multiple low-power transmitters.
– Areas divided into cells, and each served by its own antenna.
– Band of frequencies allocated.
• Mobile telecommunications switching office (MTSO):– Connects calls between mobile units.
• Two types of channels available between mobile unit and BS.– Control channels: used to exchange information for setting up and
maintaining calls.
– Traffic channels: carry voice or data connection between users.
24Wireless & Personal Communication Systems – CSE5807Lecture: 04
Operation of Cellular System• Mobile unit initialization:
– Scanning => Select the strongest setup channel.
– Handshake => Identify and register location.
• Mobile-originated call:– Request for connection on the pre-selected setup channel.
• Paging:– MTSO sends message to certain BSs to identify the called number.
• Call accepted:– Mobile recognizes the call respond to BS -> MTSO.
– MTSO assigns traffic channels.
• Ongoing call:– Monitoring stage.
• Handoff:
25Wireless & Personal Communication Systems – CSE5807Lecture: 04
Operation of Cellular System
• Call blocking:– No free traffic channels.
• Call termination:– MTSO is informed.
• Call drop:– Resulting from weak signal.
• Calls to/from fixed and remote mobile subscriber:– MTSO sets up the connection.
26Wireless & Personal Communication Systems – CSE5807Lecture: 04
Handover or Handoff
Handover occurs when a mobile phone moves from a cell to another.Power levels are constantly measured by base stations and/or mobile phones to decide whether a handover is needed.
cell boundary
Base statio
n
Base statio
n f1 f2
27Wireless & Personal Communication Systems – CSE5807Lecture: 04
Handover or Handoff• Mainly two types:
– Network initiated.
– Mobile assisted.
• Performance metrics for handoff decision.– Cell blocking probability: probability of a new call being blocked
– Call dropping probability: probability that a call is terminated due to a handoff.
– Call completion probability: probability that an admitted call is not dropped before it terminates.
• Handoff strategies:– Relative signal strength.
– Relative signal strength with threshold.
– Prediction techniques.
28Wireless & Personal Communication Systems – CSE5807Lecture: 04
Power Control• Dynamic power control in a cellular system.
– Received power must be sufficiently above the background noise for effective communication
– Desirable to minimize power in the transmitted signal from the mobile
• Reduce cochannel interference
• Alleviate health concerns
• Save battery power
– In SS systems using CDMA, it’s desirable to equalize the received power level from all mobile units at the BS.
29Wireless & Personal Communication Systems – CSE5807Lecture: 04
Power Control• Open-loop power control
– Depends solely on mobile unit.
– No feedback from BS.
– Not as accurate as closed-loop, but can react quicker to fluctuations in signal strength.
• Closed-loop power control– Adjusts signal strength in reverse channel based on:
• Received signal power level.
• Received signal to noise ratio.
• Received bit error rate.
– BS makes power adjustment decision and communicates to mobile on control channel.
– Also used to adjust power in forward channel.
• Mobile provides power adjustment information to BS.
30Wireless & Personal Communication Systems – CSE5807Lecture: 04
Traffic Engineering• Ideally, available channels would equal number of subscribers
active at one time
• In practice, not feasible to have capacity handle all possible users.
• For N simultaneous user capacity and L subscribers• L < N => non-blocking system
• L > N => blocking system
• Blocking system:– Blocking probability (B):
• Probability that call request is blocked.
– What capacity is needed to achieve a certain upper bound on probability of blocking, B?
31Wireless & Personal Communication Systems – CSE5807Lecture: 04
Traffic Engineering• Traffic intensity (A):
– Load presented to a system:
= mean rate of calls attempted per unit time.
• h = mean holding time per successful call.
• A = average number of calls arriving during average holding period.
hA
• Manner in which blocked calls are handled– Lost calls delayed (LCD) – blocked calls put in a queue awaiting a free
channel.
– Blocked calls rejected and dropped.
32Wireless & Personal Communication Systems – CSE5807Lecture: 04
Traffic Engineering• Performance is measured by the blocking probability.
• Blockage rate depends on the number of circuits available, the number of initiated calls, and the length of the conversation.
• Erlang B formula:- Calls are lost if a channel (circuit) is not available.
N
i
i
N
iA
NA
ANB
0!
!),(
33Wireless & Personal Communication Systems – CSE5807Lecture: 04
Analog Cellular Networks (1 G) An analog cellular network is operated at 900 MHz.
FDMA is used to allow multiple mobile phones to share a single base station in a cell.
Voice signals are transmitted with no coding scheme.
The major analogue cellular systems are based on the original AMPS design:
- System bandwidth: 25MHz - 25 or 30 kHz channels - AMPS (USA, EIA-553) 800MHz- TACS (UK) 900MHz - NMT (Nordic countries) 450 and 900 MHz
34Wireless & Personal Communication Systems – CSE5807Lecture: 04
AMPS Parameters• Downlink: 869 to 894 MHz
• Uplink: 824 to 849 MHz
• Channel bandwidth: 30 kHz
• Spacing between forward and reverse channel: 45 MHz
• Number of full-duplex voice channels: 790
• Number of full-duplex control channels: 42
• Mobile unit maximum power: 3 watts
• Cell radius: 2 to 20 km
• Data transmission rate: 10 kbps
• Modulation schemes: FM and FSK
35Wireless & Personal Communication Systems – CSE5807Lecture: 04
AMPS Operation• Subscriber initiates call by keying in phone number and presses
send key.
• MTSO verifies number and authorizes user.
• MTSO issues message to user’s cell phone indicating send and receive traffic channels.
• MTSO sends ringing signal to called party.
• Party answers: – MTSO establishes circuit and initiates billing information.
• Either party hangs up:– MTSO releases circuit, frees channels, completes billing
36Wireless & Personal Communication Systems – CSE5807Lecture: 04
1 G and 2 G Comparison1G 2G
System Analog Digital
Multiple Access FDMA TDMA, CDMA
Scheme: FDMA
Voice quality: Low Good
Bandwidth efficiency: Low High
Power consumption High Low
on mobile phones:
Security: Low High
Value added service: Difficult Easy
System complexity: Low High
37Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM• Use of several carrier frequencies.• Cell sizes vary : 100 m up to 35 km (user density, geography, transceiver power etc).
• Multiple Access = FDMA/TDMA FDMA 200kHz TDMA 8 slots in a frame
ie. each channel = 200kHz/8 = 25kHz (Bandwidth)
A B
0 1 2 3 4 5 6 7 0 … time
freq
f3
f2
f1
cell A
38Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM Parameters• Downlink: 935 to 960 MHz
• Uplink: 890 to 915 MHz
• Channel bandwidth: 200 kHz
• Users per channel: 8
• Spacing between forward and reverse channel: 45 MHz
• Number of duplex channels: 125
• Mobile unit maximum power: 20 watts
• Speech coding bit rate: 13 kbps
• Modulation schemes: GMSK
39Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM Speech Signal Processing
40Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM Network Architecture
41Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM: Mobile Station
• Mobile station communicates across Um interface (air interface) with base station transceiver in same cell as mobile unit.
• Mobile equipment (ME) – physical terminal, such as a telephone or PCS.– ME includes radio transceiver, digital signal processors and subscriber
identity module (SIM).
• GSM subscriber units are generic until SIM is inserted.
42Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM: Base Station Subsystem (BSS)• BSS consists of base station controller and one or more
base transceiver stations (BTS).
• Each BTS defines a single cell.– Includes radio antenna, radio transceiver and a link to a base
station controller (BSC).
• BSC reserves radio frequencies, manages handoff of mobile unit from one cell to another within BSS, and controls paging.
43Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM: Network Subsystem (NS)• NS provides link between cellular network and public switched
telecommunications networks:– Controls handoffs between cells in different BSSs.
– Authenticates users and validates accounts.
– Enables worldwide roaming of mobile users.
• Central element of NS is the mobile switching center (MSC).
44Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM: Mobile Switching Center (MSC) Databases
• Home location register (HLR) database:– Stores information about each subscriber that belongs to it.
• Visitor location register (VLR) database:– Maintains information about subscribers currently physically in the
region.
• Authentication center database (AuC):– Used for authentication activities, holds encryption keys.
• Equipment identity register database (EIR):– Keeps track of the type of equipment that exists at the mobile station
45Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM Network Architecture
fixed network
BSC
BSC
MSC MSC
GMSC
VLR
HLR
NSSwith OSS
RSS
VLR
BTS
MS
MS
46Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM Network Architecture
NSS
MS MS
BTS
BSC
GMSCIWF
OMC
BTS
BSC
MSC MSC
Abis
Um
EIR
HLRVLR VLR
A
BSS
PDNISDN, PSTN
RSS
radio cell
radio cell
MS
AUCOSS
signaling
O
47Wireless & Personal Communication Systems – CSE5807Lecture: 04
GSM: Channels Physical: TCH (Traffic Channel)
Logical channels, they are used for controls and signaling. Some examples:Synchronization channel (SCH):
- to supply mobile phones with training sequence to achieve synchronization.
Random access channel (RACH):- to allow a mobile phone to request
for a channel.Paging channel (PCH):
- for a base station to page individual mobile phones and many others.
48Wireless & Personal Communication Systems – CSE5807Lecture: 04
Required Reading
• W. Stallings, “Wireless Communications and Networks” Prentice-Hall, 2000.
>> Chapter 10
Optional Reference
• K. Pahlavan and K. Krishnamurthy “Principles of Wireless Networks”, Prentice-Hall, 2002.