2. 4G stands for 4th Generation of cellular
wireless standards which is not one defined
technology but rather a collection of
technologies
Successor of 3G and convergence of High
speed Internet
4g networks are projected to provide a a
speed of 100Mbps while moving and 1Gbps
while stationary
3. 1G(first generation)
# Developed in 1970s, is an analog system.
# Based on FDMA
# AMPS –First launched by
USA allows voice calls in one
country.
#9.6 Kbps (PEAK)
#Cross Talks
#Poor voice Quality & call drops
5. 2G ( second generation)
#Developed in 1980s is digital system consists
of ‘0’s and ‘1’s.
#Second generation is divided in two standards
i) TDMA-time division multiple access
-GSM(global system for mobile comm.)
ii) CDMA-code division multiple
access
# 9.6-14.4kbps
#sound quality
increases
6. # SMS- short message service and Emails
#2.5G – channels are optimized for packet data
- 170kbps(peak)
#No support for video transmission
#Towers have limited coverage area
#Abrupt call drops
7. 3G ( Third Generation)
#developed in 2000,promises faster data services
#provides a speed of 384kbps while in motion and
3.1Mbps while in motion
#supports video calling and broadband capacity
#WCDMA- Wideband code division multiple access
#Faster transmission and still working good.
#first launched in 2001 in japan
8. Known as beyond 3G is Ultra High speed data
transmission.
Based on OFDM-Orthogonal frequency
Division Multiplexing.
Matching the current LAN speeds, it will
provide 100Mbps on the move.
4G networks are all IP(Internet Protocol)
based heterogeneous networks which allow
to use multiple system like GPS,WLANs and
CDMA at the same time.
9. M- Mobile
Multimedia
A-Anytime
anywhere
G-Global Mobile
Support
I-Integrated
Wireless Solution
C-Customized
Personal Service
10. 4G has two standards:- LTE and WiMAX
LTE- Long Term Evolution
- Based on OFDM
- use multiple orthogonal frequencies
- Higher frequency bands
- developed by 3GPP ( 3rd Generation
Partnership Project)
-in 2011, launched by major carriers in
USA
WiMAX-Worldwide Interoperability for
Microwave Access
-often referred as Wi-Fi on steroids.
11. A single carrier signal is divided into closely
spaced multiple subcarriers in the same
bandwidth.
Each subcarrier is then modulated with a
conventional modulation scheme.
Orthogonal signals reduces FADING.
Unlike single carriers, it has ability to cope
with several channel
conditions like narrow
band interface etc.
12. Technologies used:-
VoIP- voice over internet protocol
MIMO antennas-multiple inputs and multiple
outputs increases effective throughput.
IPv6
OFDM
SDR- software defined ratio
13. HIGH SPEED 70Mbps
Lower Latency
Lower cost per bit than 3G systems
Indoor and outdoors
System capacity is 10 times of 3G
Transmission delay time is 50ms or less
Better conncetivity
Ultra fast
15. Virtual Presence
Tele Medicine and education- remote health
monitoring of patients
Real time conference meeting and seminars
over internet.
Better location based services.
16.
17. Currently LTE is being tested and used in
Bangalore, Pune and Kolkata.
US based Qualcomm and Sweden's Ericsson
aim on TD-LTE, hoping it will help them to
gain market in India