1. Welcome to anywhere

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

4. 1G

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

14. 4G

15.  Virtual Presence
 Tele Medicine and education- remote health
monitoring of patients
 Real time conference meeting and seminars
over internet.
 Better location based services.

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