HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential

Part 1. UMTS basic principle

Part 2. Huawei UMTS achievements

Part 3. SingleRAN solution and products

CONTENTS


UMTS Access Technology

1st Generation 1980s (analog)

2nd Generation 1990s (digital)

3rd Generation current (digital)

AMPS

Analog to Digital TACS

NMT

OTHERS

GSM

CDMA IS95

TDMA IS-136

PDC

UMTS WCDMA

CDMA 2000

TD-SCDMA

Voice to Broadband

HUAWEI TECHNOLOGIES CO., LTD. Huawei Confidential Page 4

WCDMA(UMTS FDD): wide band - CDMA

Power

FDMA

Power

CDMA

Power

TDMA


GSM/UMTS system architecture(R99)


WCDMA Communication Model

OVSF

code Scrambling

code


Spread Factor


CE Factor for R99 Bearers

SF UL/DL Bearer Uplink Downlink

SF64 / SF128 AMR(12.2k) 1 1

SF64 / SF128 PS16k 1 1

SF32 / SF64 PS32k 1.5 1

SF16 / SF32 PS64k 3 2

SF8 / SF16 PS128k 5 4

SF8 / SF16 PS144k 5 4

SF4 / SF8 PS256k 10 8

SF4 / SF8 PS384k 10 8

CE: Channel Element Capability


Data rate Evolution





CONTENTS


Huawei Wireless Persistent Growth

Source: Huawei 2010

Ericsson, 33.5%

Huawei, 20.8%

NSN, 19.1%

ALU, 15.6%

Others, 11.0%

2010 WIRELESS REVENUE SHARE

Source: Dell’oro (Feb 2011)


UAE Hong Kong

Japan

1st MIMO HSPA+ 28Mbps

network in Europe

1st DC HSPA+ 42Mbps, All-IP

RAN in Middle East. Successful transition with

DC HSPA+ 42Mbps.

Portugal 1st HSPA+ 21Mbps in Western

Europe. DC in deployment

Singapore

Singapore 1st HSPA+ 21Mbps in Asia

Pacific. DC in deployment

1st MIMO HSPA+ 28M in

Singapore. DC in deployment

1st DC HSPA+ 42Mbps

network in North America. Canada

Saudi 1st HSPA+ 21Mbps in Japan, sustaining

customer growth. DC in deployment

Keep leading with

HSPA+ 21Mbps

Germany

Greece

1st MIMO HSPA+ 28Mbps in

Greece, leading in competition

Leading HSPA+ Commercial Deployment

http://www.vodafone.com/hub_page.html


Peak Rate

3GPP Release 7

HSPA+ Phase1 *

HSDPA 16QAM + MIMO 2*2

(28Mbps/user)

HSDPA 64QAM (21Mbps/user)

Enhanced CELL_FACH

Capacity Improvement

• CPC

• Dynamic Power Sharing of Multi-carriers

• VoIP over HSPA/HSPA+

• CS voice over HSPA/HSPA+

• 96 HSPA user per cell

• RNC capacity : 3.91 Gbps/8.04 Gbps(RAN11.1)

Smart Network

• DL TCP accelerator

• Differentiated Service Based on SPI Weight

• Rel-7 F-DPCH

• Uplink Macro Diversity Intelligent Receiving

•Satellite Transmission on Iu Interface

(RAN11.1)

RAN11.0 (31/03/09)

UMTS Feature Roadmap

Peak Rate 3GPP Release 9

HSPA+ Phase4 *

HSDPA Dual-Band Cell

HSUPA Dual-Cell (23Mbps/user)*

Flexible DC/DB


• Dynamic ROT threshold for HSUPA

• RNC capacity: 40Gbps

Smart Network

• Visibility of IP RAN

Peak Rate

3GPP Release 8

HSPA+ Phase2 *

HSDPA 64QAM+ MIMO 2*2 (42Mbps/user)

HSDPA Dual-Cell (42Mbps/user)*

HSUPA 16QAM (7Mbps/ user)*


• Interference Cancellation

• Advanced Receiver (FDE)

• 128 HSPA users per cell


Smart Network

•Signaling Storm Solution

•Performance Improvement of MIMO and

HSDPA Co-carrier

• Quality Improvement for Subscribed Service

• Improvement of User Experience in Low Traffic

Service

Peak Rate 3GPP Release 9

HSPA+ Phase3 *

HSDPA DC + MIMO 2*2 (84Mbps/user)*

E-DPCCH boosting (11.5Mbps/user)*



Smart Network • E-DRX *

•Web Browsing Acceleration

•P2P Rate Restriction During Busy Hours

*: need UE to support

RAN11.1 GA: 2009 Q3

RAN12.0 (31/03/10) RAN13.0 (31/03/11) RAN14.0 (2012Q2)

Huawei and Qtel International Confidential Document


SRAN Feature Roadmap

Single Mode Feature •GBSS13.0 •RAN13.0 •eRAN2.1

Low Cost Evolution •GL 1800 SDR •MBSC Capacity : 3072 TRX + 3060 NodeB / 16Gbps

(typical)

Easy Reframing •GU 2.0M Frequency Separation (U3.8M) •GU Dynamic Spectrum Sharing

Better GUL Interworking •GL Interworking * •UL Interworking *

Green Network •GUL BTS PSU Smart Control •GUL BTS Active Backup Power Control

SRAN 6.0 (30/06/11)


Low Cost Evolution •UL 2100 SDR •MBSC Capacity : 5120 TRX + 3060 NodeB /24G (typical,

only IP) •GUL Co-Transmission with UTRP

Easy Reframing •Power Control on GU Interference Frequency

Better GUL Interworking •Neighboring Cell Analysis •PS Handover from UMTS to LTE *

SRAN 7.0 Candidate(2012Q2)


Low Cost Evolution •GL 900 SDR •MBSC Capacity : 2560 TRX + 2700 NodeB / 8Gbps

(typical) •BTS GL/UL Co-Transmission (IP) •Bandwidth Sharing of GU BTS Co-Transmission

Easy Reframing • GU Dynamic Power Sharing

Better GUL Interworking •GU Load Balancing (Iur-g) •GU Service Distribution (Iur-g) •NACC Procedure Optimization (Iur-g)

Green Network • GU BTS Active Backup Power Control

SRAN 5.0 (30/06/10)

*: need UE to support

Single Mode Feature •GBSS9.0 •RAN11.1

Low Cost Evolution •GU 900/850/1900 SDR •Dual Mode MBSC •MBSC Co-Transmission (IP) •GU MBSC Co-TRM •BTS GU Co-Transmission (IP)

Easy Reframing •GU Flexible Frequency Separation (U4.2M)

Better GUL Interworking •MBSC Co-RRM •Handover Based on Load Enhancement (Iur-g)

Green Network •GU BTS PSU Smart Control

SRAN 3.0 (31/12/09)

Huawei and Qtel International Confidential Document

TR5 dates are one quarter before GA date


HSDPA 64QAM + MIMO 2*2

+

Downlink

50% Peak Rate Increasing

50%

42Mbps theoretical DL peak data rate Simultaneously use 64QAM and MIMO in DL

Higher peak rate enhances user experience

64QAM 6bits/symbol

MIMO


Huawei is the first vendor having solved the problem of MIMO negative impact to leagcy none-MIMO UE.

Improve 25%+ Data Rate for Legacy Subscribers Compare to Industry Level.

9%+ Cell Throughput Gain Achievable Compare to Industry Level.

5.00

9.00

16QAM(CAT10) 64QAM MIMO

DL Cell Throughput Comparison Field test, 5 Users ( 2 good + 3 medium) in cell

DU

Met

er T

hro

ugh

pu

t (M

bp

s)

25% 15%

MIMO+HSPA Co-Carrier

Spectrum: 5Mhz

MIMO+HSPA

Performance Gain

MIMO UE

Non-MIMO

UE

Cell

throughput

Industry 30%~50% > -30% > 16%

Huawei 30%~50% < -5% > 25%

Gain same > 25% > 9%

Adopt MIMO for Capacity Improvement


Principle of MIMO Prime

Huawei MIMO Prime

VAM PA1

PA2

V1

Phase Rotator

3GPP Rel.7 VAM

VAM PA1

PA2

V1

Signal1

Signal2

Combined

Signal

Signal1

Signal2

Combined

Signal

• Based on the CQI of received signals in each cell, the VAM phase is automatically adjusted to improve the UE received signal quality.

• One signal is split into two singles through VAM. The quality of received signal could be very bad due to negative superposition of two received signals.

• MIMO Prime adjusts the VAM phase to achieve optimized performance for each cell in every period.

cell-level optimized phase adjustment based on CQI


Field Test Results by Huawei and Tier 1 Operator

Cat 8, Macro Cell Cat 14, Macro Cell

Definition

Good RSCP > -70，CQI>=25

Medium -90 < RSCP < -70 15 < CQI < 23

Bad RSCP<=-90，CQI<=15

MIMO Prime brings better performance all over the cell.

MIMO Prime brings better experience for all terminal users.

Single user throughput Single user throughput Cell throughput

test results in 2010

Mbps

15%

20%

Mbps

15% 20%

5% Mbps

11%

Average performance over UEs, Macro Cell

HISILICON SEMICONDUCTOR HUAWEI TECHNOLOGIES CO., LTD.

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GSM GSM 3.8MHz

2.0MHz

GSM GSM 4.2MHz

2.2MHz

UMTS 5.0MHz

2.6MHz

Huawei Flexible GU Refarming Solution

Configurable Bandwidth of UMTS carrier

Flexible Between 3.8MHz, 4.2MHz, and 5MHz for both downlink and uplink

Efficiently suitable for 900 frequency band

UMTS 4.2MHz , U3.8MHz solution field proved

Key Benefit

New UMTS Service/Carrier with ONLY 3.8MHz bandwidth

Save MAX 6 channels for GSM if GU900 are co-sited in rural

No 2*200K GU guard band requested

Independent of terminals

Commercial deployed : 2007 in Optus Australia, 2010 in SFR France

Field proved in Poland in 2011


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HUAWEI

50%

Huawei Refarming Market Share by 2010

SingleRAN@SDR solution

More Cases :

Serve World Largest 900MHz Refarming Network

Leading mobile broadband (HSPA+

64QAM/MIMO)

Lead the Industry into Refarming Era

No.1 Refarming market share (23 of 42 networks by 2010Q4)

11 commercial GSM&UMTS 900Mhz SDR network compliant with ETSI standard by 2010Q4

World 1st GU SDR network with America Movil in LA

EU 1st GU SDR network with Teliasonera in Finland

World’s 1st GL 1800M SDR network with Aero2 in Poland

World’s 1st GL 900M SDR network with Net4Mobility in Sweden

http://www.flickr.com/photos/djof/230461051/

http://www.vodafone.com/hub_page.html


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Page 21

Why PTT?

Different Network

Different Operation

Different Subscriber

One world one Service Voice, video, HSPA …

How to be different?

IBM Server

+

Current network

+ Faster: ~1s call setup latency

Higher: Based on HSPA, push video,

push picture, push mail…

Stronger: ARPU generator, bring

more revenue

Mexico ARPU Nextel Telcel Telefonica

2010 Q4 USD 47 13.4 7.92

A PTT operator shows great advantage

PTT network Source: http://www.teleco.com.br/en/en_operadoras/telcel.asp


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PTT: Pave the Way for Future

PTT & HSPA+

QAS

GGSN

HLR User DB

AAA

Terminal RAN PS Core

CPS

SGSN

Qualcomm

Chipsets

RAN13.0 is GA

PTT Core

Any vendor

Transportation Guard

Police Travel

Industry chain is ready

Market is ready

Sep 2011:

Peru PTT Launch

2.2M PTT Subscribers in 5 years

80% PTT users in the network

4 commercial networks


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CONTENTS


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• More equipment purchase

• More site and transmission rent

• More civil work

• More maintenance

• High power consumption

• Complex IOT and networking

• …

Operator’s Challenges: Multi-Network Leads to High Cost

Core

GSM/GPRS UMTS/HSPA LTE is coming


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SingleRAN, a Virtual Standard and Main Deployment Trend

SingleRAN Deployment Traditional deployment

Vendor 1

Vendor 2

Vendor 3

GSM

UMTS

LTE

coverage area

technologies

Ven

do

r 1

Ven

do

r 2

GSM

UMTS

LTE

coverage area

technologies

GSM,UMTS,LTE are just Features of SingleRAN


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SingleRAN with Co-Cabinet SingleRAN with SDR

Take SingleRAN Forward, Make Networks Simple

Initiated SingleRAN concept since 2008Q1

Abundant commercial experience: 80+ SingleRAN networks by 2010.

SingleRAN Concept

SingleRAN Commercialization

08Q1 08Q2 08Q4 09Q1 09Q2 2011 09Q3 Huawei, 2 year ahead

2 year ahead industry 3~4 year ahead

Vendor E Vendor N

Vendor E, N


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Power

2G 3G

R F U

R F U

R F U

R F U

R F U

R F U

R F U

R F U

R F U

R F U

R F U

R F U

GUL in one Cabinet

Multi-band

MIMO

BTS3900L

2G

900M

1800M

2100M

2600M

LTE

LTE

800M

900M

1800M

800M

2100M

2600M

SingleRAN Improve Site Efficiency, Provide Flexible Business

Plan and Long Term Evolution Advanced BTS Solution: 5 Bands, 3 Modes,1 Cabinet

½ power consumption

¼ footprint

½ Antenna

¼ Lease cost


SDR Based Gradual In-band Evolution

LTE Board

GSM

LTE

GSM GSM

UMTS

Same frequency band

UMTS Board

GSM only GSM/UMTS GSM/LTE

Open choice of next standard, gradual resource transfer from 2G and onwards

GSM

GSM

UMTS

GSM

LTE


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GUL can dynamically share the transmission and greatly improve efficiency.

Visible IP link connection check on OMC easy for trouble shooting.

Co-Clock solution between GSM and UMTS, saving GPS or Clock Server

GUL Single Transmission Improve Transmission Efficiency

Pipeline

GUL MBTS

IP/MSTP IP/MSTP GU MBSC

UMTS

GSM

S-

GW/MME

LT

E

UMTS

GSM

UMTS (FE/GE) MBTS

GSM (E1/T1) . . .

Clock

Co-Clock solution GUL co-transmission


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Huawei SingleOSS Improve Staff Efficiency

Synergy SingleRAN SingleSite

GSM UMTS LTE

Only vendor to realize energy saving via Synergy control

One surveillance View

One deployment

One configuration

Performance

Huawei OSS

Uses

to manage

Huge management capacity with SLS system


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Appreciable

Different user grade

Different service

MMS

MMS

surfing

MMS

MMS

IM E-mail

surfing P2P

IM

P2P

Home CBD Enterprise

Different time & location

Differentiated operation policy Dynamic QoS & QoE adjustment

MMS MMS

User based QoS & QoE

Service based QoS & QoE

Scenario based QoS & QoE

User based

Time based

Location based

Application based

…

User

P2P FTP HTTP

DPI based resource assignment

App svr1 App svr2 App svr3

Smart Bandwidth Management Huawei can provide bandwidth management by user priority, service priority, time&

location priority.

First to commercially launch user priority in Vodafone Spain.


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Challenges & Needs

Solutions & Benefits

User Priority Help Vodafone Maximize Bit Value

EBITDA margin >70% bandwidth occupied by low ARPU users

Network congestion in busy hours, VIP revenue

loss

Declining Profit Margin

0

500

1000

1500

2000

2500

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

0

2

4

6

8

10

12

14

16

18

20

VS.HSDPA.MeanGoldenBeChThroughput

VS.HSDPA.MeanSilverBeChThroughput

VS.HSDPA.MeanCopperBeChThroughput

VS.HSDPA.UE.Mean.Cell

Gold Silver

Copper UE

Classify user priority with gold, silver, copper.

Limit copper subs speed in busy time

Without user priority, 0.5Mbps/user

With user priority, gold 1.5Mbps/user, silver 1Mbps/user, copper

64kbps/user in busy hours

Busy Time: Different Speed

for Classified user


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Huawei SingleBTS Family

BTS3900/BTS3900L Indoor Macro BTS

BTS3900C Mini BTS

• Dense urban • Urban

BTS3900A Outdoor Macro BTS

• Urban • Residence

DBS3900 Distributed BTS

RRU

BBU

• Top of building • Top of Tower

• Rural area • Hotspot

UMTS: UAP2105, UAP2835, UAP2855

ePico3801

• Indoor Coverage • Home Application


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BTS3900: Macro Indoor Solution

Item Specification

Dimensions 900 mm x 600 mm x 450 mm (H x W x D)

Band 2100MHz,850MHz

Capacity 24cells maximum configuration: 6×4,3×8

UL: 1536CEs ; DL: 1536CEs

Output Power Type1: 4 carriers per WRFU, 80W max

Type2: 2 carriers per WRFU, 40W max

Receiver

sensitivity

1-way -125.8dBm , -126.5dBm

2-way -128.6dBm , -129.3dBm

Transmission

interface A maximum of 32 E1/T1 ports, 2 FE electrical ports, 2 FE optical ports

Power supply

–48 V DC(–38.4 V DC to –57 V DC)

+24 V DC(+21.6 V DC to +29 V DC)

220V AC single-phase(176V AC to 290V AC)

220V AC three-phase(176/304V AC to 290/500V AC)

Power consumption

Configuration Typical Maximum

3×1 520W 620W

3×2 610W 830W

3×3 810W 1070W

3×4 1020W 1330W

BTS3900


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Flexible Site Deployment with DBS3900

BBU RRU

BBU3900 • 19 inch 2U

D T R U

• • • • D T R U

D A F U

• • • •

D A F U

DTMU

BTS3012

2 U

In 19” Rack On Wall

In 2G Cabinet

In APM

RRURRU

On Wall On Pole

On Tower underneath of antenna

Distributed Installation Scenarios

Centralized Installation

• 3 RRUs mounted on the wall

or pole

• BBU insert the existing

cabinet or APM

Global Application

DNBS in eMobile, Japan

DNBS in Middle East DNBS in Brunei

BBU Container

on the wall on the pole


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RRU Triplets: RRU 3801E&3804&3806

RRU3801E/RRU3804/RRU3806

And

Same Dimension and Appearance

Same Ability of Evolution

Different Capacity Meet Different Requirement of Operators

Item RRU3801E RRU3804 RRU3806

Dimension

(H*W*D) 485mm×285mm×170mm

Weight 17Kg

Band 2100M/1900M/850M 2100M/AWS/1900M/8

50M 2100

Working

Bandwidth

Legacy:20M;

Optimized module: 25M 25M

Capacity 12 Cell 24 Cell 24Cell

UL: 1536CE DL: 1536CE

Output Power 2 Carriers

Max 40W

4 Carriers

Max 60W

4 Carriers

Max 80W

Receiver

sensitivity

2100M and AWS Band:

1-way receiver diversity: -125.8dBm, –126.5 dBm

2-wayreceiver diversity : -128.6dBm , –129.3 dBm

Evolution MIMO, HSPA+, LTE hardware ready


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RRU3829：High output power, 2T2R

Frequency band 2100 MHz: DL:1920–1980 UL: 2110–2170

Tx/Rx 2T2R

Output power 2*60W

IBW Tx/Rx 60M/60M

Capacity 6 Non-MIMO carriers/4 MIMO carriers

Power supply -48V DC (–40V DC to –60 V DC )

CPRI interface 2 CPRI interface with 1.25/2.5G self-adaptation


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HSPA

Higher PS Throughput :

3.2Gbps

IP RAN

BSC6810

New Processor Tech.

PS Throughput: 8Gbps

Node B No : 3060

BSC6900

RAN12 2010 Q2

New Processor Tech.

PS Throughput: 12Gbps

Node B No : 3060

RNC Product Overview

Convergence

Green

All IP

Multi-processor

RAN13 2011 Q1

New switching board-SCUb

Enhancement in user plane and control

plane

Up to 24Gbps Iub throughput (DL+UL)

Up to 100.5K Erl & 3720 K BHCA

…100Gbps 2012

BSC6900

Optimized software efficiency

Up to 40Gbps Iub throughput (DL+UL)

7500 K BHCA

RAN14 2012 Q2


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BSC6900 Specification

System Capacity (RAN13.0) Specification

BHCA (k) 3,720

Traffic volume (Erl) 100,500

PS (UL + DL) data

throughput (Mbit/s)

24,000

Number of NodeBs 3,060

Number of cells 5,100

Power Consumption Max. Power Consumption per subrack: ≤1560W

Temperature range 0℃～+45℃ long time

-5℃～+55℃ short time Weight：≤ 320kg/ cabinet

2200 mm

800 mm 600 mm


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Location:Cite butte des deux bassins, El Achour Oued Romane, 16030 Alger

Region Office (Oran, Constantine, Ouargla)

Staff: Chinese 68, Algeria 83

Current telecom installation team : 15

Algeria Office Brief

Huawei Can Help OTA To Fulfill This Target —— Mature Service Platform in Algeria Office

Number of experienced telecom Subcontractor teams is few in Algeria due to recent years business situation

With cooperation of international Subcontractor, we could mobilize our subcontractor team number to 50

that having project experience with Huawei product


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Huawei treats subcontractors as Business partners. Huawei classifies subcontractors to 3 levels and choose the proper ones base one both willingness altitude and technical experience Huawei is always helping its subcontractors to improve their own capability generally though afford designed training process.

Subcontractor

Huawei Can Help OTA To Fulfill This Target

Subcon. Level Introduction

Capability

BTS

Site/M

MW

Hop/M

Drive

test/M

Mobiserve A

Egypt company, more than 10 years engineering business in Telecom.

Business scope include civil work, supply tower, supply shelter, telecom service.

Cooperate with Huawei with TK work and maintenance in Egypt. 75 25 200

Linfra A

With its headquarter based in Beirut, Linfra expended its presence to the

Middle East, Gulf , and various African Regions. 9 years experience in Telecom

& TK service. Cooperate with Huawei in Algeria, Morocco,Tunis. And has

subsidiary in Algeria

50 20 150

Glextel A

Egypt company, more than 15 years engineering business in Telecom.


Cooperate with Huawei with TK work and maintenance in Egypt. 40 20 N/A

Hayatcom A Local company, more than 10 years telecom Service & Civil work

experience. Has enough qualified resource. 35 15 100

ARM A

Local company, more than 10 years engineering business in Telecom.


Cooperate with Huawei with TK in Algeira, Sudan, Mali, Libya, Egypt 40 10 100

Scadacom B Local company, 4 years experience in Telecom service, has cooperation with

Ericsson, NSN and Huawei in Algeria. 40 10 150

ITT B With headquarter based in Portugal, 8 years cooperation with Huawei in

Algeria, Tunis, Morocco and Egypt in Telecom service and civil work. 50 10 100

Linfra A

With its headquarter based in Beirut, Linfra expended its presence to the

Middle East, Gulf , and various African Regions. 9 years experience in Telecom

& TK service. Cooperate with Huawei in Algeria, Morocco,Tunis. And has

subsidiary in Algeria

50 20 150

——Huawei Subcontractor Partner


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Regional Office Platform •BSS Experts: Chinese 10 +Local 15

•RNP/RNO Experts: Chinese 7 + Local 10

Huawei Can Help OTA To Fulfill This Target ——Mature Service Platform in Regional Office

•Experienced Engineers： Chinese 57 + Local 234

Major Subcontractors：

Subcontractor Teams Experience

Alkan Tele 45 Etisalat Misr 3G Expansion Project, Egypt Vodafone Swap Project, Egypt Mobinil 3G project Zain Sudan 2G&3G Swap,MTN Sudan 2G Expansion PO1/PO2 Project…

Mobiserve 45 Egypt Etisalat TK Project, Egypt Vodafone Swap Project, Egypt Mobinil 3G project… Algeria ATM PO2/PO3 Swap Project…

Glextel 35 Egypt Etisalat TK Project, Egypt Vodafone Swap Project, Egypt Mobinil 3G project…

EEC 30 Egypt Etisalat TK Project, Egypt Vodafone Swap Project, Egypt Mobinil 3G project… Zain Sudan 2G&3G Swap,MTN Sudan 2G Expansion PO1/PO2 Project…

NESIC 25 Egypt Etisalat TK Project, Egypt Vodafone Swap Project, Egypt Mobinil 3G project…

Linfra 25 Morocco Meditel 2G3G Project, Morocco WANA Project… Algeria ATM G800 Project, Algeria ATM G500 Project, Algeria ATM PO2/PO3 Swap Project…

Telcom 20 Morocco Meditel 2G3G Project, Morocco WANA Project…

Sigmatel 18 Morocco Meditel 2G3G Project, Morocco WANA Project…

Hayatcom 10 Tunis Tunisia TT 2G3G Project, Tunisia Divona 2G3G Project… Algeria ATM G800 Project, Algeria ATM G500 Project…


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Huawei Can Help OTA To Fulfill This Target ——Huawei Dedicated Delivery Team

Warranty/Maintenance Manager

2G

Team

Drive Test Team

RN

P Team

RN

O Te

am

Technical Director

Project Manager

HSEQ Assurance Team

Survey & Design Staff

Implementation

Team

Installation Staff

Training Team

Commissioning Staff

Logistic Specialist

Technical Support Staff

Network Optimization

Financial Team

Product Sales Manager

Account Manager

Drive Test Data

Analysis

Plan Control Manager

Document Specialist Warranty/Maintena

nce Manager

Project Director

Sponsor

Expert Bypast Experience

Mr. Bai

YongJian

Wireless team leader of NA

TD of Egypt ET project(2000 sites)

TD of Tunis FT project(2000 sites) …

Mr. Jiang

Mingtao

Wireless team leader of Algeria

TD of G800 project(800 sites)

TD of G500 project(500 sites) …

Mr. Zhao

Zongjian

RNO/RNP team leader of Algeira

China Mobile 2G Swap (5000 sites)

Turkey turkcell 2G swap (2300sites)

Sudan Sudani 2G (1300 sites)...

Mr. Haziane

Nassim

PMO Manager

PM of MSC SWAP Project (33 sites)

PM of MPLS project(31 sites)

PM of BSS 2G SWAP project…

Zou Zhilei

Ge Zhanwen

Zhao Liang 2

2 1

1 1

3 25 1 1 22 1

Thank you www.huawei.com


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GSM / UMTS Modernization & LTE Introduction

for Vodafone D2 (Germany):

Project Overview

July 2010, contract granted to Huawei (GSM & UMTS

upgrade, + LTE rollout)

10K + GSM and UMTS sites swap, 50% market share

nationwide

LTE 800MHz 1st phase, 67% share of 1500 base station

Solution

Huawei SingleRAN; 3 technologies & 5 bands in 1 site:

G900&1800MHz, U2100MHz, LTE 800&2600MHz

Remote Radio Units using “3mRRU” (preferred solution)

Voice over LTE

LGE & Samsung LTE terminals

Interworking with Starent EPC

1000 Base Stations on air at March 2011

Frequency 800MHz 900MHz 1800MHz 2100MHz 2600MHz

Bandwidth 10MHz 11.8MHz 5.4MHz 15MHz 20MHz

Mode LTE GSM GSM UMTS LTE World 1st 800 MHz LTE network & Voice over LTE


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Huawei SingleRAN solution to

Vodafone D2 project

RRU:

LTE 800MHz UMTS 2100MHz LTE 2600MHz

mRFU:

GSM 900MHz

GSM1800MHz

fiber

L800 + G900 + G1800 + U2100 + L2600

BBU

Benefits brought by Huawei Solution

GSM + LTE sites & GSM + UMTS + LTE sites

Solution combines Macro BS & RRU (Remote Radio

Units)

Best Practice for Cost Reduction

o Smallest & lightest 3mRRU fast deployment

o Future site solution ~50% TCO saving within 5

years

Best Approaches to Network Convergence

o SingleRAN: 1st vendor with 5 bands & 3 modes in 1

cabinet

Best LTE Performance: 1st vendor to provide E2E

LTE800 solution (June, 2009)

L800 + G900

Trans-

mission

Space

RRU: LTE 800MHz GSM 900MHz

BBU

IP MW IDU

GSM + LTE sites

GSM + UMTS + LTE

sites –>


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TeliaSonera Norway Network Transformation

Based on Huawei SingleRAN GSM/UMTS/LTE

Jan 2011

Jan 2009

Dec 2009

Contract encompasses: LTE network expansion

& G&U network modernization

• SingleRAN GSM/UMTS/LTE solution for the south area of

Norway

• 70% market share covering Oslo, Bergen and Stavanger

• Total 7,600+ sites

• Swap 4000 + GSM and UMTS sites

• 84Mbps HSPA+ / 150Mbps LTE, Seamless MBB

• Huawei solution based on 3MRRU and 3900

World 1st

LTE commercial

network launched

Signed world 1st

LTE commercial

contract

• Location: Oslo, Norway

• E2E LTE solution

• Deploying DBS at 2.6GHz

90.6 Mbps


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SDR Serve World Largest GU900 Refarming Network in

SFR France

Challenge and needs

Aged GSM equipment modernization

GU900 refarming for better MBB

Opex saving

Solution and benefits

SDR greatly reduce TCO for modernization and refarming.

Leading MBB capability meet SFR MBB strategy in French market

Unique ETSI compliant and Field-proven SDR performance

Leading all IP solution lower lease d line cost and ready for MBB

blooming

http://www.flickr.com/photos/djof/230461051/

how to build 3g network for part 3

Documents

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received signals

huawei technologies

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singleran solution

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industry level