Unit V – Cellular Standards
Part-A
1.Why the second generation was developed?
The second-generation systems
have
been developed to provide
higher
quality signals, higher
data rates for support of digital services, and greater capacity.
2. What are second generation standards are available?
a) Global system mobile (GSM) in Europe.
b) IS 136 also Known
as North American Digital Cellular (NADC) or
US Digital
Cellular (USDC) in North America. c) PDC in Japanese, TDMA standard.
d) IS-95 in North America also known as cdma one.
3. Write the advantages 2G
over 1G.
a) Natural integration with the evolving digital wire line network. b) Flexibility for capacity expansion.
c) Reduction in RF transmits power.
d) Encryption for communication privacy and e) Reduction in system complexity.
f) Higher data rate.
g) Higher quality of signal and supports digital services.
4. What are the services offered by GSM?
GSM has defined three different categories of service
(i) Telephone services
(ii) Bearer (or) data services and
(iii) Supplementary services.
5. Write about
telephone service of GSM.
(i) Teleservices provide communication between two and user applications
according to a standard protocol.
(ii) GSM mainly focuses on voice-oriented teleservices.
(iii) This service including emergency calling and facsimile. (iv) GSM also supports videotext and teletex.
6. Write GSM features.
a)
Subscriber identity module(SIM) which is a memory devices that stores information such as the subscriber’s identification numbers, the networks and countries where the subscriber is entitled to
service, privacy tags, and other user-specific information.
b) GSM equipment manufacturer must sign the memorandum of understanding (MoU).
The MoU is an international agreement which allows the sharing of cryptographic algorithms and other proprietary information between countries and carriers.
7. What are the subsystems available in GSM
system?
a) Base station subsystem (BSS)
b) Network and switching subsystem (NSS) and c) Operation support
subsystem(OSS)
8. What is the function of NSS
in
GSM?
`The NSS manages the switching functions of the systems and allows the MSCs to communicate
with
other networks such as the PSTN and ISDN.
9. What are the functions of OSS
in
GSM?
The OSS
has
three main functions
a)
To maintain the all
telecommunications hardware and network operations with a particular
market.
b) Manage all charging and billing procedures and c)
Manage all
mobile equipment in the system.
10. Define Abis interface.
The interface which connects a base transceiver station (BTS) to a base station controller
(BSC) is called the Abis interface.
11. Define A interface.
The interface between a BSC and a MSC is called the A interface, which is standardized
within GSM.
12. Write the function of A-Interface.
a)
The A interface uses an SS7 protocol called the signaling correction control part (SCCP) which supports communication between the MSC and the BSS, as well as network messages between the
individual subscribers and the MSC.
b)
The
A
interface allows a service
provider
to use base
stations and
switching equipment
made
by
different manufacturers.
13. What are the databases available in NSS of GSM?
In the
NSS,
there are three different databases are used. They are
(i) Home location register(HLR) (ii) Visitor location register(VLR) (iii) Authentication center (AuC).
14. Write the functions of HLR.
(i) The HLR is a database which contains subscriber information and location
Information for
each user who resides in the same city as the MSC.
(ii) Each subscriber has international mobile subscriber identity (IMSI). This number
is
used to identify each home user.
15. What is the function of VLR?
The VLR is a database which temporarily stores the IMSI and customer information for each
roaming subscriber who is visiting the coverage area of
a particular MSC.
16. Write the functions of AUV?
(i) The Authentication center is a strongly protected database which handles the
authentication and encryption keys for every single Subscriber in the HLR and VLR.
(ii) The authentication center contains a register called the equipment identity register (EIR) which identifies stolen or fraudulently altered phones
that
transmit identity data that
does not match which Information contained in either the HLR or VLR.
17. What are the basic
channels available in GSM?
GSM specifies two basic
groups of logical channels.
(i) Traffic channels (TCHs)
and
(ii)
Control channels (CCHs)
18. Write the types of TCH channels of GSM.
(i) Full-rate TCH(TCH/F)
and
(ii) Half – rate TCH (TCH/H)
19. What are the control channels available in GSM?
There are three main control channels in the GSM system. They are
(i) Broadcast
channels (BCH)
(ii) Common control channel (CCCH) (iii) Dedicated
control channel (DCCH)
20. Write the dedicated control channels available in GSM?
(a) Stand-alone dedicated control channels (SDCCHs) (b) Slow
associated control channel
(SACCH)
(c) Fast associated control channels (FACCHs)
21. What is the need guard period (Space).
The guard period is used to avoid overlapping with other bursts due to different path delays and to give the transmitter time to turn on and off.
22.
Define DTM mode.
By incorporating a voice activity detector (VAD) in the speech coder, GSM systems operate in a discontinuous transmission mode (DTM) which provides a longer subscriber
battery life and reduces
instantaneous radio interference since the GSM transmitter is not active during silent periods.
23. What are the ciphering algorithms used in GSM?
(i) Two types of ciphering algorithms called A3 and A5 are used in GSM to prevent unauthorized network access and privacy for the radio transmission respectively.
(ii) The A3 algorithm is used to authenticate each mobile by verifying the user
pass code within the SIM with the cryptographic key at
the
MSC.
(iii) The A5 algorithm provides the scrambling for
the
114 coded data bit sent in each TS.
24. Define Burst
Formatting in GSM.
Burst formatting adds binary data to the ciphered
blocks, in order to help synchronization and equalization of the received signal.
Mention the features of GSM.
(i) DECT provides a cordless communications framework for high traffic density, short range telecommunications and covers a broad range of application and environments.
(ii) DECT is configured around
an open standard
(OSI) which makes it
possible to interconnect wide area fixed or mobile networks such as ISDN or
GSM.
(iii) DECT provides low power radio access between portable parts and fixed base stations at ranges of up to a few hundred meters.
25. Write the applications of GSM.
(i) DECT offers excellent quality and services for voice and data applications.
(ii) It is to provide local mobility to portable users in an in-building private
Branch exchange (PBX)
(iii) It supports telephone services.
26. What are the channels in IS-95 supported by forward link?
The forward link supports four types of channels. (i) Pilot
(ii) Synchronization
(iii) Paging
(iv) Traffic
27. What is the need of pilot channel?
The pilot channel is indented to provide a reference signal for all MSS within a cell that
provides
the
phase reference for coherent demodulation.
28. What is the need of wide-band signaling in AMPS?
Wide-band data signaling may be used on a voice channel to provide brief data messages that allow the subscriber and the base station to adjust subscriber power or initiate a
hand off.
29. Write the function of SAT in AMPS.
The particular frequency of the SAT denotes the particular base station location for a given channel and is assigned by the MSC for each call.
30. Mention any four parameters of AMPS.
Base station transmission band:
869 to 894 MHz. Mobile
unit
transmission band: 824
to 849 MHz.
Spacing between forward and reverse channels: 45 MHz. Channel bandwidth: 30 kHz.
31. Write the advantages of
N-AMPS over AMPS.
N-AMPS provided three
users in a 30 kHz AMPS channel
by
using FDMA and 10 kHz channels, and provided three times the
capacity of AMPS.
32. What are the main objectives of the 3G system?
The objective of the 3G of wireless communication is to provide fairly high speed wireless
communications to support multimedia, data and video in addition to voice.
33. Compare the CDMA systems.
Specification
IS-95
(Current System)
Cdma 2000
(U.S.A)
W-CDMA
(Japan/Europe)
Channel
1.25 MHz
5MHz
5MHz
bandwidth
Number of
carriers
1
3
1
Chip rate
1.2288 Mb/s
1.2288 Mb/s per
carrier
4.096 Mb/s
Data rate
9.6 kb/s
Variable to 2 Mb/s
Variable to 2Mb/s
34. What is WLL?
Wireless local
loops using radio transmission in the VHF and UHF bands have
been
employed in isolated areas for some time, because they can transmit
signals for several
kilometers without the need for stringing cable.
35. Write the advantages of WLL.
The WLL has a number of advantages over a wired approach to subscriber loop
Support.
Cost: WLL systems are less expensive than wired systems.
Intallation time: WLL system can be installed in a small fraction of the time required for a new wired
system.
Selective installation: Radio units are installed only for those subscribers who want the service
at a given time.
36. Define Pico net.
The simplest Bluetooth networks called piconets can have from two to eight nodes. A piconet
is a collection of Bluetooth devices which
are
synchronized to the Same hoping sequence.
37. What is Bluetooth?
Bluetooth is an open specification for short
range wireless voice and data
Communications that was originally developed for cable replacement in personal
area Networking to
operate all over the world.
38. What is scatter net?
One Bluetooth devices can operate simultaneously on two piconets, acting As a bridge between the two. A conglomeration of two or more piconets is called a Scatter net.
39. Define load.
Traffic intensity across the entire trunked radio system, measured in Erlangs.
40. What is request
rate?
The average number of call
requests per unit tie. It is denoted by λ seconds-1.
41. What are the techniques used to improve received signal quality and link performance?
(i) Equalization
(ii) Diversity
(iii) Channel coding
42. Define reflection effect.
If an object is large compared to the wavelength of the signal, e.g., huge buildings, mountains
or the surface of the wavelengths, the signal
is
reflected.
The reflected signal
is
not as strong as the original, as objects can absorb some of the signals
power.
43. What are the drawbacks available direct
RF
pulse systems?
(i) Due to the usage of wide pass band filter for multipath resolution, the System is easily affected
by
interference and noise.
(ii)If the first arriving signal is blocked or fades, serve fading occurs, and the system may not trigger properly.
(iii)Due
to the use of an envelope detector, the phases of the individual multipath components
are not received.
(iv)The coherent detector permits measurement of the multipath phase using this technique.
PART B
1. Write short notes on:
(i) EDGE Standard
(ii) IS-95B Standard
2.
Discuss in detail about forward and reverse CDMA channel.
3.
With the channel and frame structure, explain in detail about GSM architecture.
4.
Explain in detail about W-CDMA architecture.
5.
Give an overview about advanced mobile phone service
6.
Explain in detail about AMPS
7.
Explain about GPRS
Specification
IS-95
(Current System)
Cdma 2000
(U.S.A)
W-CDMA
(Japan/Europe)
Channel
1.25 MHz
5MHz
5MHz
bandwidth
Number of
carriers
1
3
1
Chip rate
1.2288 Mb/s
1.2288 Mb/s per
carrier
4.096 Mb/s
Data rate
9.6 kb/s
Variable to 2 Mb/s
Variable to 2Mb/s
