UNIT III
MOBILE COMMUNICATION SYSTEMS
GSM-architecture-Location tracking and call setup- Mobility management- Handover-Security-GSM SMS –International roaming for GSM- call recording functions-subscriber and service data mgt –-Mobile Number portability -VoIP service for Mobile Networks –GPRS –Architecture-GPRS procedures-attach and detach procedures-PDP context procedure-combined RA/LA update procedures-Billing
UNIT IV MOBILE AD-HOC NETWORKS
Ad-Hoc Basic Concepts – Characteristics – Applications – Design Issues – Routing – Essential of Traditional Routing Protocols –Popular Routing Protocols – Vehicular Ad Hoc networks ( VANET) – MANET Vs VANET – Security
UNIT II
WIRELESS NETWORKS
Wireless LAN – IEEE 802.11 Standards – Architecture – Services – Mobile Ad hoc Networks- WiFi and WiMAX - Wireless Local Loop
UNIT III MOBILE TELECOMMUNICATION SYSTEM
Global System for Mobile Communication (GSM) – General Packet Radio Service (GPRS) – Universal Mobile Telecommunication System (UMTS).
These ppt are the part 2 of mobile computing concepts. These ppt defines the following things
Wireless Networking
Wireless LAN Overview: IEEE 802.11
Wireless applications
Data Broadcasting
Bluetooth
TCP over wireless
Mobile IP
WAP: Architecture, protocol stack, application
environment, applications.
UNIT IV MOBILE AD-HOC NETWORKS
Ad-Hoc Basic Concepts – Characteristics – Applications – Design Issues – Routing – Essential of Traditional Routing Protocols –Popular Routing Protocols – Vehicular Ad Hoc networks ( VANET) – MANET Vs VANET – Security
UNIT II
WIRELESS NETWORKS
Wireless LAN – IEEE 802.11 Standards – Architecture – Services – Mobile Ad hoc Networks- WiFi and WiMAX - Wireless Local Loop
UNIT III MOBILE TELECOMMUNICATION SYSTEM
Global System for Mobile Communication (GSM) – General Packet Radio Service (GPRS) – Universal Mobile Telecommunication System (UMTS).
These ppt are the part 2 of mobile computing concepts. These ppt defines the following things
Wireless Networking
Wireless LAN Overview: IEEE 802.11
Wireless applications
Data Broadcasting
Bluetooth
TCP over wireless
Mobile IP
WAP: Architecture, protocol stack, application
environment, applications.
Orbits : types of satellites : frequency used link establishment, MA techniques used in satellite communication, earth station; aperture actuators used in satellite – Intelsat and Insat: fibers – types:
sources, detectors used, digital filters, optical link: power line carrier communications: SCADA
GSM-architecture-Location tracking and call setup- Mobility management- Handover-
Security-GSM SMS –International roaming for GSM- call recording functions-subscriber and
service data mgt –-Mobile Number portability -VoIP service for Mobile Networks – GPRS –
Architecture-GPRS procedures-attach and detach procedures-PDP context procedure-
combined RA/LA update procedures-Billing
Overview of handover decision strategies in heterogeneous networks by narendr...Narendra Prajapati
The availability of diverse wireless access technologies such as (Wi-Fi), (WiMAX), and (UMTS) allows users to stay “always on” in fast roaming too using IEEE802.21.
Vertical handovers had made possible for user to transfer itself to other technology service without disturbances in ongoing process.
Its is known that security problems in GSM authentication when it comes to high speed moving users, because of there frequent change of cell sites.
Handover could be horizontal or vertical and per user requirement. MIH (media independent handover) though provide vertical handover but on other hand 802.11had provided us fast and secure connection oriented handover from one access point to another with in same mobility domain.
Thus feature of security and authentication is integrated with handover for user security.
What are heterogeneous networks?
Evolutions of Generations
The Cellular GSM Transitions
Overview of 4G Communications
Concept of Handover /Handoff
Handovers distinguished according to criteria
The Vertical handover IEEE 802.21 & its phases.
VHO Management procedures
Requirements of Handover mechanism in heterogeneous networks
Performance evaluation (Technology )
Performance evaluation in Handover mechanisms
Overview
WLAN Technologies - Infrared LANs, Spread Spectrum LANs, Narrowband Microwave LANs
IEEE 802.11 – Architecture, protocols, MAC layer, MAC Frame, MAC Management
Infra Red
Co-channel and adjacent-channel interference evaluation of an outdoor telecom...Konstantinos Stamatakis
The objective of the present paper is to evaluate the
impact of adjacent and co-channel interference on the
performance of some standard report systems that exists in an
outdoor telecommunications cabinet - base station (BS) (also
known as KV, from the acronym of the German word
Kabelverzweiger) and devices that technicians frequently use.
Specifically, the interference analyzed is between devices, such as
Bluetooth handset, laptop and measurement tools, that are
usually used during inspections and repairs by technicians and
wireless reporting systems installed inside BS that provide
information about BS’s condition and real time connection with
the help desk back office
Diseña un test interactivo sobre redes de computadores con base en la fundamentación de los principales conceptos, cableado estructurado, características de los dispositivos, software y herramientas de autor.
Orbits : types of satellites : frequency used link establishment, MA techniques used in satellite communication, earth station; aperture actuators used in satellite – Intelsat and Insat: fibers – types:
sources, detectors used, digital filters, optical link: power line carrier communications: SCADA
GSM-architecture-Location tracking and call setup- Mobility management- Handover-
Security-GSM SMS –International roaming for GSM- call recording functions-subscriber and
service data mgt –-Mobile Number portability -VoIP service for Mobile Networks – GPRS –
Architecture-GPRS procedures-attach and detach procedures-PDP context procedure-
combined RA/LA update procedures-Billing
Overview of handover decision strategies in heterogeneous networks by narendr...Narendra Prajapati
The availability of diverse wireless access technologies such as (Wi-Fi), (WiMAX), and (UMTS) allows users to stay “always on” in fast roaming too using IEEE802.21.
Vertical handovers had made possible for user to transfer itself to other technology service without disturbances in ongoing process.
Its is known that security problems in GSM authentication when it comes to high speed moving users, because of there frequent change of cell sites.
Handover could be horizontal or vertical and per user requirement. MIH (media independent handover) though provide vertical handover but on other hand 802.11had provided us fast and secure connection oriented handover from one access point to another with in same mobility domain.
Thus feature of security and authentication is integrated with handover for user security.
What are heterogeneous networks?
Evolutions of Generations
The Cellular GSM Transitions
Overview of 4G Communications
Concept of Handover /Handoff
Handovers distinguished according to criteria
The Vertical handover IEEE 802.21 & its phases.
VHO Management procedures
Requirements of Handover mechanism in heterogeneous networks
Performance evaluation (Technology )
Performance evaluation in Handover mechanisms
Overview
WLAN Technologies - Infrared LANs, Spread Spectrum LANs, Narrowband Microwave LANs
IEEE 802.11 – Architecture, protocols, MAC layer, MAC Frame, MAC Management
Infra Red
Co-channel and adjacent-channel interference evaluation of an outdoor telecom...Konstantinos Stamatakis
The objective of the present paper is to evaluate the
impact of adjacent and co-channel interference on the
performance of some standard report systems that exists in an
outdoor telecommunications cabinet - base station (BS) (also
known as KV, from the acronym of the German word
Kabelverzweiger) and devices that technicians frequently use.
Specifically, the interference analyzed is between devices, such as
Bluetooth handset, laptop and measurement tools, that are
usually used during inspections and repairs by technicians and
wireless reporting systems installed inside BS that provide
information about BS’s condition and real time connection with
the help desk back office
Diseña un test interactivo sobre redes de computadores con base en la fundamentación de los principales conceptos, cableado estructurado, características de los dispositivos, software y herramientas de autor.
Interpreta el diseño de planos arquitectónicos y eléctricos de la red de computadores apoyado en las necesidades del cliente y las normas internacionales vigentes
Global System For Mobile Communication by Ummer &MaroofUmmer Rashid Dar
Global System For Mobile Communication
By: Ummer Rashid Dar & Maroof Bashir Bhat
M.tech (ECE) ,1st year .
Pounduchery University.
Dept.of Electronics Engineering .
605014
This presentation covers:
How evolution has happened from First Generation Mobile Communication Systems to present day 3G/UMTS/WCMDA systems
Brief introduction of each Generation: GSM - 2G, 2.5 G - GPRS, 2.75G - EDGE, 3G and then LTE/4G
BJT small signal model – Analysis of CE, CB, CC amplifiers- Gain and frequency response – MOSFET small signal model– Analysis of CS and Source follower – Gain and frequency response- High frequency analysis.
AM – Frequency spectrum – vector representation – power relations – generation of AM – DSB, DSB/SC, SSB, VSB AM Transmitter & Receiver; FM and PM – frequency spectrum – power relations : NBFM & WBFM, Generation of FM and DM, Armstrong method & Reactance modulations : FM & PM frequency.
PN junction diode –structure, operation and V-I characteristics, diffusion and transient capacitance - Rectifiers – Half Wave and Full Wave Rectifier,– Display devices- LED, Laser diodes- Zener diodecharacteristics-Zener Reverse characteristics – Zener as regulator,TRANSISTORS, BJT, JFET, MOSFET- structure, operation, characteristics and Biasing UJT, Thyristor and IGBT Structure and characteristics,BJT small signal model – Analysis of CE, CB, CC amplifiers- Gain and frequency response –
MOSFET small signal model– Analysis of CS and Source follower – Gain and frequency response- High frequency analysis,BIMOS cascade amplifier, Differential amplifier – Common mode and Difference mode analysis – FET input stages – Single tuned amplifiers – Gain and frequency response – Neutralization methods, power amplifiers –Types (Qualitative analysis),Advantages of negative feedback – voltage / current, series , Shunt feedback –positive feedback – Condition for oscillations, phase shift – Wien bridge, Hartley, Colpitts and Crystal oscillators.
Multinational Corporations – Environmental Ethics – Computer Ethics – Weapons Development – Engineers as Managers – Consulting Engineers – Engineers as Expert Witnesses and Advisors – Moral Leadership –Code of Conduct – Corporate Social Responsibility
Safety and Risk – Assessment of Safety and Risk – Risk Benefit Analysis and Reducing Risk - Respect for Authority – Collective Bargaining – Confidentiality – Conflicts of Interest – Occupational Crime – Professional Rights – Employee Rights – Intellectual Property Rights (IPR) – Discrimination
Senses of “Engineering Ethics” – Variety of moral issues – Types of inquiry – Moral dilemmas – Moral Autonomy – Kohlberg‟s theory – Gilligan‟s theory – Consensus and Controversy – Models of professional roles - Theories about right action – Self-interest – Customs and Religion – Uses of Ethical Theories
Morals, values and Ethics – Integrity – Work ethic – Service learning – Civic virtue – Respect for others – Living peacefully – Caring – Sharing – Honesty – Courage – Valuing time – Cooperation – Commitment – Empathy – Self confidence – Character – Spirituality – Introduction to Yoga and meditation for professional excellence and stress management.
Trust models for Grid security environment – Authentication and Authorization methods – Grid security infrastructure – Cloud Infrastructure security: network, host and application level – aspects of data security, provider data and its security, Identity and access management architecture, IAM practices in the cloud, SaaS, PaaS, IaaS availability in the cloud, Key privacy issues in the cloud.
Open source grid middleware packages – Globus Toolkit (GT4) Architecture , Configuration – Usage of Globus – Main components and Programming model - Introduction to Hadoop Framework - Mapreduce, Input splitting, map and reduce functions, specifying input and output parameters, configuring and running a job – Design of Hadoop file system, HDFS concepts, command line and java interface, dataflow of File read & File write.
2. Cellular Network Organization
Use multiple low-power transmitters (100 W or less)
Areas divided into cells
Each served by its own antenna
Served by base station consisting of transmitter, receiver,
and control unit
Band of frequencies allocated
Cells set up such that antennas of all neighbors are
equidistant (hexagonal pattern)
4. DISCUSSION TOPICS
History
Building Blocks
System Architecture
Features (Basic and Advanced)
Advantages of GSM
Future – what’s next
5. HISTORY
Early 80’s Europe was experiencing rapid growth in the
analog cellular telephone systems
1982 Conference of European Posts and Telegraphs
(CEPT) GSM (Groupe Special Mobile) group was
formed to study and develop a pan-European public
land mobile system
GSM mandate was to develop a standard to be
common for the countries that created it – provide
service to the entire European continent
6. HISTORY
contd.
GSM criteria –
Good subjective speech quality
Low terminal and service cost
Support for international roaming – one system for all of
Europe
Ability to support handheld terminals
Support for range of new services and facilities
Enhanced Features
ISDN compatibility
Enhance privacy
Security against fraud
7. HISTORY
contd.
Late 1980’s GSM work was transferred to the European
Telecommunication Standards Institute (ETSI) and
SGM (Special Mobile Group) was created
Document the functionality and interaction of every
aspect of the GSM network
1987 ETSI oversees the creation of GSM MoU
(Memorandum of Understanding) Association
8. HISTORY
contd.
Formal objective of the GSM MoU Association is the
promotion and evolution of the GSM systems and GSM
platforms
Concepts of a published international standard and a
constantly evolving common standard are unique to
GSM
Work groups throughout the world specifically designed
to allow interested parties to meet and work on finding
solutions to systems enhancements that will fit into
existing programs of GSM operators
9. HISTORY
contd.
Phase I of GSM specifications was published in 1990
International demand was so great that the system name was
changed from Groupe Special Mobile to Global Systems for
Mobile Communications (still GSM)
Commercial service started in mid-1991
1992 first paying customers were signed up for service
By 1993 there were 36 GSM networks in 22 countries
Early 1994 there were 1.3 million subscribers worldwide
By 1996 there were more than 25 million subscribers worldwide
The total base of GSM subscribers has now crossed the 250
million-mark and stands at 257.85 million as on Dec 31, in India.
10. Building Blocks
AMPS – Advanced Mobile Phone System
TACS – Total Access Communication System
NMT – Nordic Mobile Telephone System
11. Building Blocks
contd.
AMPS – Advanced Mobile Phone System
analog technology
used in North and South America and approximately
35 other countries
operates in the 800 MHz band using FDMA
technology
12. Building Blocks
contd.
TACS – Total Access Communication System
variant of AMPS
deployed in a number of countries
primarily in the UK
13. Building Blocks
contd.
NMT – Nordic Mobile Telephone System
analog technology
deployed in the Benelux countries and Russia
operates in the 450 and 900 MHz band
first technology to offer international roaming – only
within the Nordic countries
14. System Architecture
Mobile Station (MS)
Mobile Equipment (ME)
Subscriber Identity Module (SIM)
Base Station Subsystem (BBS)
Base Transceiver Station (BTS)
Base Station Controller (BSC)
Network Subsystem
Mobile Switching Center (MSC)
Home Location Register (HLR)
Visitor Location Register (VLR)
Authentication Center (AUC)
Equipment Identity Register (EIR)
15. System Architecture
Mobile Station (MS)
The Mobile Station is made up of two entities:
1. Mobile Equipment (ME)
2. Subscriber Identity Module (SIM)
16. System Architecture
Mobile Station (MS) contd.
Mobile Equipment
Produced by many different manufacturers
Must obtain approval from the standardization body
Uniquely identified by an IMEI (International
Mobile Equipment Identity)
17. System Architecture
Mobile Station (MS) contd.
Subscriber Identity Module (SIM)
Smart card containing the International Mobile
Subscriber Identity (IMSI)
Allows user to send and receive calls and receive other
subscribed services
Encoded network identification details
Protected by a password or PIN
Can be moved from phone to phone – contains key
information to activate the phone
18. System Architecture
Base Station Subsystem (BSS)
Base Station Subsystem is composed of two parts that
communicate across the standardized Abis interface
allowing operation between components made by
different suppliers
1. Base Transceiver Station (BTS)
2. Base Station Controller (BSC)
19. System Architecture
Base Station Subsystem (BSS) contd.
Base Transceiver Station (BTS)
Houses the radio transceivers that define a cell
Handles radio-link protocols with the Mobile Station
Speech and data transmissions from the MS are
recoded
Requirements for BTS:
ruggedness
reliability
portability
minimum costs
20. System Architecture
Base Station Subsystem (BSS) contd.
Base Station Controller (BSC)
Manages Resources for BTS
Handles call set up
Location update
Handover for each MS
21. System Architecture
Network Subsystem
Mobile Switching Center (MSC)
Switch speech and data connections between:
Base Station Controllers
Mobile Switching Centers
GSM-networks
Other external networks
Heart of the network
Three main jobs:
1) connects calls from sender to receiver
2) collects details of the calls made and received
3) supervises operation of the rest of the network components
22. System Architecture
Network Subsystem contd.
Home Location Registers (HLR)
- contains administrative information of each subscriber
- current location of the mobile
Visitor Location Registers (VLR)
- contains selected administrative information from the HLR
- authenticates the user
- tracks which customers have the phone on and ready to receive a
call
- periodically updates the database on which phones are turned on
and ready to receive calls
23. System Architecture
Network Subsystem contd.
Authentication Center (AUC)
- mainly used for security
- data storage location and functional part of the network
- Ki is the primary element
Equipment Identity Register (EIR)
- Database that is used to track handsets using the IMEI
(International Mobile Equipment Identity)
- Made up of three sub-classes: The White List, The Black List and
the Gray List
- Optional database
25. Basic Features Provided by GSM
Call Waiting
- Notification of an incoming call while on the handset
Call Hold
- Put a caller on hold to take another call
Call Barring
- All calls, outgoing calls, or incoming calls
Call Forwarding
- Calls can be sent to various numbers defined by the user
Multi Party Call Conferencing
- Link multiple calls together
26. Advanced Features Provided by GSM
Calling Line ID
- incoming telephone number displayed
Alternate Line Service
- one for personal calls
- one for business calls
Closed User Group
- call by dialing last for numbers
Advice of Charge
- tally of actual costs of phone calls
Fax & Data
- Virtual Office / Professional Office
Roaming
- services and features can follow customer from market to market
27. Future -- UMTS (Universal Mobile Telephone
System
Reasons for innovations
- new service requirements
- availability of new radio bands
User demands
- seamless Internet-Intranet access
- wide range of available services
- compact, lightweight and affordable terminals
- simple terminal operation
- open, understandable pricing structures for the whole spectrum of
available services
28. Advantages of GSM
Crisper, cleaner quieter calls
Security against fraud and eavesdropping
International roaming capability in over 100 countries
Improved battery life
Efficient network design for less expensive system expansion
Efficient use of spectrum
Advanced features such as short messaging and caller ID
A wide variety of handsets and accessories
High stability mobile fax and data at up to 9600 baud
Ease of use with over the air activation, and all account
information is held in a smart card which can be moved from
handset to handset
29. Frequency Reuse
Adjacent cells assigned different frequencies to avoid
interference or crosstalk
Objective is to reuse frequency in nearby cells
10 to 50 frequencies assigned to each cell
Transmission power controlled to limit power at that
frequency escaping to adjacent cells
The issue is to determine how many cells must intervene
between two cells using the same frequency
30. Approaches to Cope with
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
Microcells – antennas move to buildings, hills, and
lamp posts
32. Cellular Systems Terms
Base Station (BS) – includes an antenna, a controller,
and a number of receivers
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 having to
do with setting up and maintaining calls
Traffic channels – carry voice or data connection between
users
33. Steps in an MTSO Controlled Call
between Mobile Users
Mobile unit initialization
Mobile-originated call
Paging
Call accepted
Ongoing call
Handoff
34. Additional Functions in an MTSO
Controlled Call
Call blocking
Call termination
Call drop
Calls to/from fixed and remote mobile subscriber
35. Mobile Radio Propagation Effects
Signal strength
Must be strong enough between base station and mobile unit
to maintain signal quality at the receiver
Must not be so strong as to create too much cochannel
interference with channels in another cell using the same
frequency band
Fading
Signal propagation effects may disrupt the signal and cause
errors
36. Handoff Performance Metrics
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
Probability of unsuccessful handoff – probability that
a handoff is executed while the reception conditions
are inadequate
37. Handoff Performance Metrics
Handoff blocking probability – probability that a
handoff cannot be successfully completed
Handoff probability – probability that a handoff occurs
before call termination
Rate of handoff – number of handoffs per unit time
Interruption duration – duration of time during a
handoff in which a mobile is not connected to either
base station
Handoff delay – distance the mobile moves from the
point at which the handoff should occur to the point at
which it does occur
38. Handoff Strategies Used to
Determine Instant of Handoff
Relative signal strength
Relative signal strength with threshold
Relative signal strength with hysteresis
Relative signal strength with hysteresis and threshold
Prediction techniques
39. Power Control
Design issues making it desirable to include 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
40. Types of 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 metric
of performance
BS makes power adjustment decision and communicates to
mobile on control channel
41. Traffic Engineering
Ideally, available channels would equal number of
subscribers active at one time
In practice, not feasible to have capacity handle all
possible load
For N simultaneous user capacity and L subscribers
L < N – nonblocking system
L > N – blocking system
42. Blocking System Performance
Questions
Probability that call request is blocked?
What capacity is needed to achieve a certain upper bound
on probability of blocking?
What is the average delay?
What capacity is needed to achieve a certain average
delay?
43. Traffic Intensity
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, for normalized
hA
44. Factors that Determine the Nature
of the Traffic Model
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
Lost calls cleared (LCC) – user waits before another attempt
Lost calls held (LCH) – user repeatedly attempts calling
Number of traffic sources
Whether number of users is assumed to be finite or infinite
45. First-Generation Analog
Advanced Mobile Phone Service (AMPS)
In North America, two 25-MHz bands allocated to AMPS
One for transmission from base to mobile unit
One for transmission from mobile unit to base
Each band split in two to encourage competition
Frequency reuse exploited
46. 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
47. Differences Between First and
Second Generation Systems
Digital traffic channels – first-generation systems are
almost purely analog; second-generation systems are
digital
Encryption – all second generation systems provide
encryption to prevent eavesdropping
Error detection and correction – second-generation
digital traffic allows for detection and correction,
giving clear voice reception
Channel access – second-generation systems allow
channels to be dynamically shared by a number of
users
48. Mobile Wireless TDMA Design
Considerations
Number of logical channels (number of time slots in
TDMA frame): 8
Maximum cell radius (R): 35 km
Frequency: region around 900 MHz
Maximum vehicle speed (Vm):250 km/hr
Maximum coding delay: approx. 20 ms
Maximum delay spread (m): 10 s
Bandwidth: Not to exceed 200 kHz (25 kHz per
channel)
51. 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
SIMs roam, not necessarily the subscriber devices
52. 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
53. 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)
54. 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
55. TDMA Format – Time Slot Fields
Trail bits – allow synchronization of transmissions
from mobile units
Encrypted bits – encrypted data
Stealing bit - indicates whether block contains data or
is "stolen"
Training sequence – used to adapt parameters of
receiver to the current path propagation characteristics
Strongest signal selected in case of multipath propagation
Guard bits – used to avoid overlapping with other
bursts
58. Functions Provided by Protocols
Protocols above the link layer of the GSM signaling
protocol architecture provide specific functions:
Radio resource management
Mobility management
Connection management
Mobile application part (MAP)
BTS management
59. Advantages of CDMA Cellular
Frequency diversity – frequency-dependent
transmission impairments have less effect on signal
Multipath resistance – chipping codes used for CDMA
exhibit low cross correlation and low autocorrelation
Privacy – privacy is inherent since spread spectrum is
obtained by use of noise-like signals
Graceful degradation – system only gradually
degrades as more users access the system
60. Drawbacks of CDMA Cellular
Self-jamming – arriving transmissions from multiple
users not aligned on chip boundaries unless users are
perfectly synchronized
Near-far problem – signals closer to the receiver are
received with less attenuation than signals farther
away
Soft handoff – requires that the mobile acquires the
new cell before it relinquishes the old; this is more
complex than hard handoff used in FDMA and TDMA
schemes
61. Mobile Wireless CDMA Design
Considerations
RAKE receiver – when multiple versions of a signal
arrive more than one chip interval apart, RAKE
receiver attempts to recover signals from multiple
paths and combine them
This method achieves better performance than simply
recovering dominant signal and treating remaining signals
as noise
Soft Handoff – mobile station temporarily connected
to more than one base station simultaneously
63. Types of Channels Supported by
Forward Link
Pilot (channel 0) - allows the mobile unit to acquire
timing information, provides phase reference and
provides means for signal strength comparison
Synchronization (channel 32) - used by mobile station
to obtain identification information about cellular
system
Paging (channels 1 to 7) - contain messages for one or
more mobile stations
Traffic (channels 8 to 31 and 33 to 63) – the forward
channel supports 55 traffic channels
64. Forward Traffic Channel
Processing Steps
Speech is encoded at a rate of 8550 bps
Additional bits added for error detection
Data transmitted in 2-ms blocks with forward error
correction provided by a convolutional encoder
Data interleaved in blocks to reduce effects of errors
Data bits are scrambled, serving as a privacy mask
65. Forward Traffic Channel
Processing Steps (cont.)
Power control information inserted into traffic channel
DS-SS function spreads the 19.2 kbps to a rate of
1.2288 Mbps using one row of 64 x 64 Walsh matrix
Digital bit stream modulated onto the carrier using
QPSK modulation scheme
66. ITU’s View of Third-Generation
Capabilities
Voice quality comparable to the public switched
telephone network
144 kbps data rate available to users in high-speed
motor vehicles over large areas
384 kbps available to pedestrians standing or moving
slowly over small areas
Support for 2.048 Mbps for office use
Symmetrical / asymmetrical data transmission rates
Support for both packet switched and circuit switched
data services
67. ITU’s View of Third-Generation
Capabilities
An adaptive interface to the Internet to reflect
efficiently the common asymmetry between inbound
and outbound traffic
More efficient use of the available spectrum in general
Support for a wide variety of mobile equipment
Flexibility to allow the introduction of new services
and technologies
69. CDMA Design Considerations
Bandwidth – limit channel usage to 5 MHz
Chip rate – depends on desired data rate, need for
error control, and bandwidth limitations; 3 Mcps or
more is reasonable
Multirate – advantage is that the system can flexibly
support multiple simultaneous applications from a
given user and can efficiently use available capacity
by only providing the capacity required for each
service
70. 2/12/2016 Department of Information Technology2/12/2016 Department of Information Technology
Traditional SMS Architecture
GMSC : Gateway Mobile [service] Switching Center
HLR : Home Location Register
MSC : Mobile Service Switching Center
SMS : Short Messaging Service
SMSC : Short Messaging Service Center
73. 2/12/2016 Department of Information Technology
GSM Network
Element
Modification or Upgrade Required for GPRS.
Mobile Station
(MS)
New Mobile Station is required to access GPRS services. These
new terminals will be backward compatible with GSM for voice
calls.
BTS A software upgrade is required in the existing base transceiver
site.
BSC The base station controller (BSC) requires a software upgrade
and the installation of new hardware called the packet control
unit (PCU). The PCU directs the data traffic to the GPRS
network and can be a separate hardware element associated
with the BSC.
GPRS Support
Nodes (GSNs)
The deployment of GPRS requires the installation of new core
network elements called the serving GPRS support node
(SGSN) and gateway GPRS support node (GGSN).
Databases (HLR,
VLR, etc.)
All the databases involved in the network will require software
upgrades to handle the new call models and functions
introduced by GPRS.