Asst Prof ECE TECHNOLOGIES P.J.Reginald M.Tech (P.hD)APHRDI/2016/09... · by Motorola PJR. PJR. ......

2G,3G,LTE & 5G TECHNOLOGIES

By P.J.Reginald M.Tech (P.hD)

Asst Prof ECE

PJR

COMMUNICATIONS

➢ Transfer of information➢ Simplex (Ex:Pager)➢ Half duplex( Walkie talkie)➢ Duplex(Cell phone)

PJR

PJR

WIRELESS TECHNOLOGY INTRODUCTION

➢Wireless is defined as “having no wires”.

➢The term is used to describe communication where there is no physical wired connection between sender and receiver, rather the network is connected by radio or microwaves.

PJR

Growth of cellular telephone subscribers throughout the world.

MARTIN COOPER

CELLULAR NETWORK BASICS

➢ Cellular network/telephony is a radio-based technology; radio waves are electromagnetic waves that antennas propagate.

➢ Most signals are in the 850 MHz, 900 MHz, 1800 MHz, and 1900 MHz frequency bands.

PJR

CELLULAR SYSTEM

PJR

CELLULAR NETWORK BASIC ARCHITECTURE PJR

CELLULAR NETWORK➢ Base stations transmit to and receive from mobiles

at the assigned spectrum.➢ The service area of each base station is called a cell.

➢ Each mobile terminal is typically served by the ‘closest’ base stations.➢ Handoff when terminals move.

PJR

OPERATIONAL CHANNELS➢ Forward Voice Channel (FVC): This channel is

used for the voice transmission from the BS to the MS.

➢ Reverse Voice Channel (RVC): This is used for the voice transmission from the MS to the BS.

➢ Forward Control Channel (FCC): Control channels are generally used for controlling the activity of the call, i.e., they are used for setting up calls and to divert the call to unused voice channels

PJR

THE MULTIPLE ACCESS PROBLEM

➢ The base stations need to serve many mobile terminals at the same time (both downlink and uplink)

➢ All mobiles in the cell need to transmit to the base station

➢ Interference among different senders and receivers

➢ So we need multiple access scheme

PJR

MULTIPLE ACCESS SCHEMES

• Frequency Division Multiple Access (FDMA)• Time Division Multiple Access (TDMA)• Code Division Multiple Access (CDMA)

3 orthogonal Schemes:

PJR

CELLULAR NETWORK GENERATIONS

1. It is useful to think of cellular Network/telephony in terms of generations:

+ 1G: Analog cellular telephony.

+ 2G: Digital cellular telephony.

+ 3G: High-speed digital cellular telephony (including video telephony).

+ 4G: IP-based “anytime, anywhere” voice, data, and multimedia telephony at faster data rates than 3G (deployed in 2012–2015).

PJR

FREQUENCY DIVISION MULTIPLE ACCESS

✕ Each mobile is assigned a separate frequency channel for the duration of the call

✕ Sufficient guard band is required to prevent adjacent channel interference

✕ Usually, mobile terminals will have one downlink frequency band and one uplink frequency band

✕ Different cellular network protocols use different frequencies✕ Frequency is a precious and scare resource. We are running out of

it+ Cognitive radio

frequency

PJR

TIME DIVISION MULTIPLE ACCESS

• Time is divided into slots and only one mobile terminal transmits during each slot– Like during the lecture, only one can talk, but others may take the floor in turn

• Each user is given a specific slot. No competition in cellular network– Unlike Carrier Sensing Multiple Access (CSMA) in WiFi

Guard time – signal transmitted by mobile terminals at different locations do no arrive at the base station at the same time

PJR

CODE DIVISION MULTIPLE ACCESS

✕ Use of orthogonal codes to separate different transmissions✕ Each symbol of bit is transmitted as a larger number of bits

using the user specific code – Spreading+ Bandwidth occupied by the signal is much larger than the information

transmission rate+ But all users use the same frequency band together

Orthogonal among users

PJR

EVOLUTION OF CELLULAR NETWORKS

1G 2G 3G 4G2.5G

PJR

PJR

1G TECHNOLOGY➢ 1G refers to first generation of wireless telephone technology,

it is introduced in 1980’s.

➢ It’s speed was upto 2.4kbps.

➢ It uses analog signal.

➢ The frequency is typically 800 MHz band

➢ AMPS was the first 1G mobile systems in USA .

➢ NMT (Nordic Mobile Telephony) is European Technology

with 450 MHz and 900 Mhz.

➢ TACS(Total Access communication) is British version

PJR

PJR

AMPS

➢ Advanced Mobile Phone System (AMPS) is an analog mobile cell phone system standard developed by Bell Labs,

➢ It is officially introduced in the America on October 13, 1983. AMPS phone was developed by Motorola

PJR

PJR

DRAWBACKS OF 1G➢ Poor voice quality.

➢ Poor battery life.

➢ Large phone size.

➢ No security.

➢ Limited capacity.

➢ Poor handoff reliability.

➢ call drop.

PJR

PJR

2G TECHNOLOGY

➢ 2G refers to second generation which is based on GSM and launched in the year 1991.

➢ It uses digital signals.

➢ Data speed was upto 64kbps.

➢ It enables services such as text messages, picture messages and multi media message(MMS).

➢ It provides better quality and capacity.

PJR

PJR

GSM

➢ Global System for Mobile Communications.

➢ Concurrent development in USA and Europe in the 1980’s.

➢ The European system was called GSM and deployed in the early 1990’s.

PJR

GSM SERVICES

Voice, 3.1 kHz

Short Message Service (SMS) + 1985 GSM standard that allows messages of at most 160 chars. (incl.

spaces) to be sent between handsets and other stations+ Over 2.4 billion people use it; multi-billion $ industry

PJR

GSM CHANNELS

➢ Physical Channel: Each timeslot on a carrier is referred to as a physical channel

➢ Logical Channel: Variety of information is transmitted between the MS and BTS. Different types of logical channels:➢ Traffic channel➢ Control Channel

Downlink

Uplink

Channels

PJR

GSM FREQUENCIES

➢ Originally designed on 900MHz range, now also available on 800MHz, 1800MHz and 1900 MHz ranges.

➢ Separate Uplink and Downlink frequencies➢ One example channel on the 1800 MHz frequency band, where

RF carriers are space every 200 MHz

1710 MHz 1880 MHz1805 MHz1785 MHz

UPLINK FREQUENCIES DOWNLINK FREQUENCIES

UPLINK AND DOWNLINK FREQUENCY SEPARATED BY 95MHZ

PJR

GSM ARCHITECTUREPJR

MOBILE STATION (MS)

➢ MS is the user’s handset and has two parts➢ Mobile Equipment➢ Radio equipment➢ User interface➢ Processing capability and memory required for

various tasks➢ Call signalling➢ Encryption➢ SMS

➢ Equipment IMEI number➢ Subscriber Identity Module

PJR

SUBSCRIBER IDENTITY MODULE (SIM)➢ A small smart card

➢ It is an integrated circuit chip that is intended to securely store the international mobile subscriber identity (IMSI) number and its related key

PJR

SIM card Introduced

Standard reference

Length (mm)

Width (mm)

Thickness (mm) Volume (mm3)

Full-size (1FF) 1991

ISO/IEC 7810:2003, ID-1

85.60 53.98 0.76 3511.72

Mini-SIM (2FF) 1996

ISO/IEC 7810:2003, ID-000

25.00 15.00 0.76 285.00

Micro-SIM (3FF) 2003

ETSI TS 102 221 V9.0.0, Mini-UICC

15.00 12.00 0.76 136.80

Nano-SIM (4FF) early 2012

ETSI TS 102 221 V11.0.0

12.30 8.80 0.67 72.52

Embedded-SIM(eSIM)

JEDEC Design Guide 4.8, SON-8ETSI TS 103 383 V12.0.0GSMA SGP.22 V1.0

6.00 5.00 <1.00 <30.00

PJR

BASE STATION SUB SYSTEM

• Transcoding Rate and Adaptation Unit (TRAU)– Performs coding between the 64kbps PCM coding used in the backbone

network and the 13 kbps coding used for the Mobile Station (MS)• Base Station Controller (BSC)

– Controls the channel (time slot) allocation implemented by the BTSes– Manages the handovers within BSS area– Knows which mobile stations are within the cell and informs the MSC/VLR

about this• Base Transceiver System (BTS)

– Controls several transmitters– Each transmitter has 8 time slots, some used for signaling, on a specific

frequency

PJR

GSM ADVANTAGES

➢ The availability of Subscriber Identity Modules allows users to switch networks and handsets .

➢ GSM covers virtually all parts of the world so international roaming is not a problem

➢ Less signal deterioration inside buildings

PJR

DRAWBACKS OF 2G➢ It requires digital signals for communication. If there is no

network coverage then digital signals would weak.

➢ These systems are unable to handle complex data such as videos.

➢ Reduced range

➢ Interferes with some electronics, especially certain audio amplifiers.

PJR

2.5 TECHNOLOGY

➢ 2.5G is a technology that emerges between 2G and 3G.➢ It is also described as 2G cellular technology combined with

GPRS.➢ Some of the features are

▪ Voice & Data▪ Send/Receive e-mail messages▪ web browsing▪ camera phones▪ speed: 64-144 kb/sec▪ Time to download a 3 min MP3 song: 6-9 min

PJR

THE EVOLUTION GENERATION (2.5G)

➢ Several platforms are leading the 2.5G effort; they are as follows:

1. General Packet Radio Service (GPRS)/High Speed Circuit Switched Data (HSCSD)

2. Enhanced Data Rates for Global Evolution (EDGE)3 .Code Division Multiple Access (CDMA2000) (phase 1)

PJR

GPRS

➢ General Packet Radio Service (GPRS)

➢ GSM upgrade that provides IP-based packet data transmission up to 114 kbps.

➢ Users can “simultaneously” make calls and send data.

➢ GPRS provides “always on” Internet access and the Multimedia Messaging Service (MMS) whereby users can send rich text, audio, video messages to each other.

➢ Performance degrades as number of users increase.

➢ GPRS is an example of 2.5G telephony – 2G service similar to 3G.

PJR

3G TECHNOLOGY➢ Services include wide-area wireless voice telephony, Video-calls and broadband wireless data high speed data transfer Multimedia applications

➢ UMTS(Universal Mobile Telecommunication service) is 3G system with data rates higher then 2Mbps

.

PJR

3G OVERVIEW➢ 3G is created by ITU-T and is called

IMT-2000

PJR

Features includes❖ Phone calls

❖ Global roaming

❖ Send/receive large email messages

❖ High speed web

❖ Navigation / maps

❖ Video conferencing

❖ TV streaming

❖ Electronic agenda meeting reminder

❖ Speed: 200 kb/sec-2mb/sec

❖ Time to download a 3 min MP3 song:

11 sec-1.5 min

PJR

MUSIC ON YOUR MOBILE!!

▪ Music Live streaming

▪ Video Live streaming.

▪ access to downloadable music,with

▪ no cables or PC.

PJR

Taking games to the next level

❑ 3G technology has taken the gaming to the next level.

❑ Real-time multiplayer gaming is possible in 3G system.

❑ Innovative new services are being added by developer daily.

PJR

EXTENDING TV TO MOBILES

▪ Not simply rebroadcast of TV or website

▪ Enhanced existing service for mobile environment.

▪ Multi-faceted – 24*7 access to multiple

live streams , video , image & text

▪ Fully integrated in browser – one click access.

Video-Conferencing

PJR

ADVANTAGES OF 3G

▪ New radio spectrum to relieve overcrowding in existing

systems.

▪ More bandwidth , security & reliability.

▪ Inter-portability between services providers.

▪ High data rates compared to previous generations

▪ Rich multimedia services.

▪ Speech Quality like Wired Services.

PJR

DISADVANTAGES OF 3G

▪ New Infrastructure is needed for 3G

▪ 3G phones are Expensive .

▪ Lack of buy-in by 2G mobile users for the new 3G

PJR

EVOLUTION FROM 2G

IS-95 IS-136 & PDCGSM-

EDGEGPRS

HSCSD

IS-95B

Cdma2000-1xRTTCdma2000-1xE

V,DV,DOCdma2000-3xRTT

W-CDMA

EDGETD-SCDMA

2G

3G

2.5G

3GPP3GPP2

PJR

3.5G (HSPA)➢High Speed Packet Access (HSPA) is an amalgamation of two mobile telephony protocols, High Speed Downlink Packet Access (HSDPA) and High Speed Uplink Packet Access (HSUPA), that extends and improves the performance of existing WCDMA protocols.

➢3.5G introduces many new features that will enhance the UMTS technology in future. 1xEV-DV already supports most of the features that will be provided in 3.5G. These include:➢ - Adaptive Modulation and Coding➢ - Fast Scheduling➢ - Backward compatibility with 3G➢ - Enhanced Air Interface

PJR

PJR

4G (LTE)

➢ LTE stands for Long Term Evolution. LTE was first proposed by NTT DoCoMo of Japan in 2004

➢ Promises data transfer rates of 100 Mbps but targeted 1Gbps

➢ Based on UMTS 3G technology.

➢ Optimized for All-IP traffic. Unlike 3G, which is based on two parallel infrastructures consisting of circuit switched and packet switched network nodes, 4G is based on packet switching only.

PJR

4G

➢ Uses Orthogonal Frequency Division Multiplexing (OFDM) for downlink.

➢ Uses Single Carrier Frequency Division Multiple Access (SC-FDMA) for uplink.

➢ Uses Multi-input Multi-output(MIMO) for enhanced throughput

➢ Reduced power consumption.

➢ Higher RF power amplifier efficiency (less battery power used by handsets).

➢ Faster and more reliable

PJR

ADVANTAGES OF LTE

PJR

COMPARISON OF LTE SPEED

PJR

WHAT IS 5G???➢ 5G is a packet switched

wireless system with wide area coverage and high throughput.

➢ 5G wireless uses OFDM and millimeter wireless that enables data rate of 20 mbps and frequency band of 2-8 GHz.

➢ 5G is going to be a packed based network.

www.ppttopics.com

PJR

OBJETIVES OF 5G:▪ 5G being developed to accommodate QoS rate

requirements set by further development of existing 4G applications.

▪ Flexible channel bandwidth between 5 and 20MHz, optionally up to 40MHz.

▪ Data rate of at list 1Gb/s between any two points in the world.

▪ Increase system spectral efficiency of up to 3bit/s/Hz/cell in the downlink and 2.25bit/s/Hz/cell for indoor usage.

www.ppttopics.com

PJR

STANDARD WIRELESS 5G:➢ WiMAX formed to provide conformance and

interoperability of the IEEE 802.16 standard. It aims to provide wireless data over long distance from point-to-point link to cellular mobile type access.

➢ WiBRO a part of IEEE 802.16e in process to provide collaborative and generic mobile WiMAX.

➢ 3GPP LTE a project aims to improve the mobile phone standard to cope with future requirements.

➢ 5GPP 2 UMB a project to improve the CDMA2000 mobile phone standard for next generation applications.

www.ppttopics.com

PJR

Thank you

PJR