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市場調查報告書

2010～15年的全球LTE(前瞻長程演進)廣域基地台與小型基地台市場相關報告書

The LTE Macro-BS & Small-Cell Report (2010-15)

出版商	TeleAnalytics, Inc.
出版日期	2011年11月	商品編碼	225665
內容資訊	英文 265 Pages
價格	US $ 5500 PDF by E-mail (Corporate License)

簡介
目錄
相關商品

2010～15年的全球LTE(前瞻長程演進)廣域基地台與小型基地台市場相關報告書 是由出版商TeleAnalytics, Inc.在2011年11月所出版的。這份英文市場調查報告書包含265 Pages 價格從美金5500起跳。

簡介

本報告提供包含廣域與小型基地台的全球LTE(前瞻長程演進)基地台市場相關資料相關調查分析，從2010年開始到2015年為止的該市場趨勢與展望等資料彙整，概述為以下內容。

摘要整理

第1章簡介

第2章 LTE(前瞻長程演進)基地台市場

定義和LTE(前瞻長程演進)基地台的區域的售出
LTE(前瞻長程演進)廣域基地台市場與發展的動態
與LTE(前瞻長程演進)廣域基地台市場主要企業現狀相關概況
商業用LTE(前瞻長程演進)網路和LTE(前瞻長程演進)廣域基地台廠商市場佔有率

第3章小型基地台和LTE(前瞻長程演進)基地台市場

概況
小型基地台所扮演的角色的多樣性
小型基地台的發展相關主要參數
LTE(前瞻長程演進)基地台市場與主要企業

第4章北美LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第5章南美的LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第6章已發展的亞太地區的LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第7章西歐的LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第8章東歐的LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第9章 ROW的LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第10章中國的LTE(前瞻長程演進)的發展，頻譜，引進，基本設備

第11章過去預期的LTE(前瞻長程演進)的接收地區，廣域，微型，Femto技術的各基地台的銷售額和收益

The report, as all before it, is based on the TeleAnalytics LTE-Networks database which by now has evolved to a comprehensive tool that integrates historical (wherever available) and forecasted data sets for most LTE related entities. The band of operation of individual LTE-Networks and population coverage scenarios for the more than 190 LTE network tracked were built in the database even in its original version (fall 2010). For the purpose of this report the database has been enriched by datasets related to existing 2G-3G macro-BS counts, eNB deployment intentions and depending on the network, detailed city population-area data sets. The database snapshot used for this report was taken at the end of September 2011, and all the network-countryregion info is current as of the end of Q3-11.

The methodology followed for estimating the installed base and future shipments of eNBs is tailored to the individual LTE networks. In countries like Korea or Japan almost all MNOs (emobile is an exception) have announced detailed multi year plans about the number of BSs that will be upgraded to LTE. In the more common case that MNOs have released only LTE population coverage milestones, these plans are translated to basestation counts by forming estimates of the number of currently installed BSs and factoring in the population-areas involved. The report used extensively satellite imagery, since what is urban and what is the size of an urban area has never been agreed upon internationally and there are as many definitions about these entities as Statistic Agencies in the 82 countries tracked.

It goes without saying that " quick-and-dirty" methods of estimating BS counts from previously formed LTE subscriber forecasts are totally inaccurate for quite a number of reasons. For instance, although both Brazil and the US have four major MNOs each, the Brazilian BS density per 1000 POP is not even one third of the US figure (see graph) and of course there is nothing much similar between the 700 MHz Verizon network that launched in 2010 and the Brazilian LTE networks that will launch in the 2.6 GHz band in late 2013.

The residential small-cells market is inherently more complex than the LTE macro-BS market and it will present for years to come a much wider geographical variability. In France, SFR recently started giving away Femtocells to all its 3G customers, but other Tier 1 MNOs are quite far from following the same road either in 3G or LTE. Additionally, in many Tier 2 markets the wireline broadband penetration may be too low for Femtocells to have the same impact as they had in Japan (SoftBank), or the wireline broadband infrastructure may be of so low quality that makes mass Femtocell deployments difficult to justify (for instance Brazil).

Therefore, although LTE Femtocells may very well start being used in APAC in late 2012 (NTT DoCoMo made its intentions on the issue clear), the regional adoption picture will be highly variable for years to come. The report takes the time to look closely to this country-regional variability in Femtocell adoption, since the issue in hand is obviously not well suited to generalities.

The medium power small-cells (indoor or outdoor) adoption is even more complex; outside Japan (see next page for a NTT Do- CoMo example) and Korea, MNOs have limited experiences with this type of deployments. A few NYC subway stations have very recently been opened up to Sprint and T-Mobile subs, but in Korea SK Telecoms started installing LTE gear in the Inchon-Seoul subway concurrently with the upgrade of its macro-BSs to LTE; it is noted that SKT is the fourth time that goes through a subway deployment (counting S-DMB in the total). Additionally, the country-region variability in this case is due to the wide time spread of LTE launches (approximately five years) and an Argentinean MNO that it may have an LTE license to deploy only in 2014 is obviously unlikely to worry much about LTE traffic offloading in the first half of this decade.

Again, the report takes the time to look in this geographically varying picture and it brings in the experiences of metro Wi-Fi, an area that Tele- Analytics worked for years. These experiences are not only relevant because SKT depends so much on its Wi-Fi footprint, or that BelAir Networks (and old metro Wi-Fi hand) was one of the early vendors to go after the small cell market. It is simply because, small LTE cells pose many of the same technological-logistical issues that metro Wi-Fi had to deal with; among others these issues are related with the new landlords (usually mayors), vertical antenna coverage, backhaul and others.

Macro-BSs and Small Cells in Cellular and in LTE

It has been already mentioned here and is discussed in more detail in the report, that the medium power small-cell market which is just opening up will adoption-wise present very significant country-to-country variability for years to come. Part of this variability is due to different perceptions about the use of the small-cells in a network-extender role, before the capacity crunch that will eventually come will call on the small-cells to take up the traffic offloading role as well. As a matter of fact, NTT DoCoMo that pioneered the mass use of indoor cells in the beginning of the last decade, started deploying small cells as FOMA network extenders long before the 3G capacity crunch was witnessed.

Today, almost one out of three NTT DoCoMo BSs is indoors (see graph at the bottom) and in the LTE context the deployment of small-cells started concurrently with the LTE upgrade of the outdoor macro-BSs. More recently, NEC announced that it has already started delivery of small-cells gear to KDDI, whose LTE network is expected to go live in H2-12.

Visualizing the need for such a network-extender role for small-cells has first of all to take into account realistic (measured, instead of assumed) building penetration losses. The report quotes on actual mass measurement campaigns carried out in the 600 MHz to 2.1 GHz part of the spectrum, instead of subscribing to popular assumptions that see the upper part of the UHF (the 700 MHz and 800 MHz bands) as having magic like building penetration capabilities. Additionally, it is quantified that consumers now depend much more on their LTE SmartPhone working in all reasonable places, in contrast to the early EU R99 era when the indoor coverage provided was minimal.

The Dynamics of the LTE Macro-BS Market

LTE deployment strategies vary widely and evidently this fact affects both the total number of BSs to be upgraded to LTE capabilities and also the distribution of these upgrades in time.

In Sweden, TeliaSonera will basically reach its end LTE deployment target at the end of this year, while in Finland the same company estimates that the LTE coverage will start approaching the existing today 3G coverage only in 2015. In Japan indoor-outdoor LTE upgrades are made in a single sweep. The same fact is pretty well true for the main US LTE deployments (outdoor only), but not for Canada where two out of the three major MNOs have to wait for spectrum to be auctioned (in a number of major urban centers). Finally in Korea, SKT plans to reach universal (more than 94% of total POP) population LTE-coverage in just two and a half years after launch.

Understandably, this variability which in many cases exists even within the same country defines a unique networkcountry LTE BS upgrade profile and the regional picture is created through the superposition of these network specific LTE upgrade profiles. As an example, the overall North American LTE Macro-BS upgrade profile is shown in the graph at the top of the page.

The points made above are just a few of the dozen or more reasons that make necessary the estimation of the evolution of the LTE BS counts down at the LTE network level and after the local regulatory-spectrum framework of every specific country is accurately mapped. The report which enjoys the support of the TeleAnalytics LTE-Networks database follows this low level (and correct) approach, instead of just manipulating BS counts at the regional level.

0. EXECUTIVE SUMMARY

0.1. QUALITATIVE POINTS
- 0.1.1. The Current LTE Context and Macro, Pico and Femto Cells
- 0.1.2. The Report & Its Organization
- 0.1.3. The LTE Engaged, Covered and Adopting Populations
- 0.1.4. The LTE Macro-BS Market
- 0.1.5. The LTE Small-Cells Market
0.2. QUANTITATIVE POINTS
- 0.2.1. Regional Breakdown of LTE Networks, Countries, Coverage and Subs (2010-15)
- 0.2.2. Evolution of the LTE Macro-BS Sales and Revenue - Regional Breakdown (2010-15)
- 0.2.3. Evolution of the LTE Pico-Cells Sales and Revenue - Regional Breakdown (2010-15)
- 0.2.4. Evolution of the LTE Femtocell Sales and Revenue - Regional Breakdown (2010-15)

1. INTRODUCTION

1.1. THE SYNTHESIS OF THE LTE-NETWORKS LAUNCH SCHEDULES IN 82 COUNTRIES (2010-15)
1.2. SUMMARY OF THE STATUS AND OUTLOOK OF THE LTE DEPLOYMENTS IN 82 COUNTRIES
1.3. THE DYNAMICS & CHALLENGES OF THE LTE SPECTRUM: UHF, CELLULAR BANDS & IMT-2000

2. THE LTE BASE STATION MARKET

2.1. DEFINITIONS AND PARTITIONING OF THE LTE BS SPACE
2.2. THE LTE MACRO-BS MARKET AND DEPLOYMENT DYNAMICS
- 2.2.1. Introduction
- 2.2.2. Evolution of the Number of Cell Sites
- 2.2.3. Spectrum Availability
- 2.2.4. SDR BSs and Forklift LTE Upgrades
- 2.2.5. Geography Related Deployment Issues
- 2.2.6. The 5 Years LTE Coverage Targets
- 2.2.7. Concluding Remarks
2.3. THE LTE MACRO-BS MARKET PLAYERS AND CURRENT OUTLOOK
2.4. COMMERCIAL LTE-NETWORKS & LTE MACRO-BS VENDOR MARKET SHARES (H1-10 TO H2-11)

3. THE SMALL-CELLS AND LTE-BS SILICON MARKETS

3.1. OVERVIEW
3.2. THE MULTIPLICITY OF THE SMALL-CELL ROLES
- 3.2.1. Indoor Penetration, LTE Small-Cells & the Commercial LTE Plane
- 3.2.2. Small-Cells and Outdoor LTE Network Extension
- 3.2.3. LTE-Advanced, HetNets and Traffic Offloading
- 3.2.4. LTE Versus Wi-Fi Small Cell Deployments
- 3.2.5. The Major Small-Cell LTE Market Vendors & Upcoming Entrants
- 3.2.6. The LTE Small-Cell Market Outlook
3.3. KEY SMALL CELL DEPLOYMENT PARAMETERS
- 3.3.1. Small-Cells Placement-Installation Issues & Landlords
- 3.3.2. The Small-Cell 3D Coverage Envelope
- 3.3.3. The Small-Cell Backhaul Options and Market
3.4. THE LTE BS SILICONMARKET AND MAJOR PLAYERS

4. THE NA LTE DEPLOYMENTS, SPECTRUM. ADOPTION & INFRASTRUCTURE

4.1. OVERVIEW OF THE NORTH AMERICAN LTE AND LTE NETWORKS SEGMENTATION
4.2. THE CANADIAN LTE DEVELOPMENTS
- 4.2.1. Group-A: Rogers & Bell Mobility
- 4.2.2. Group-B: TELUS, SaskTel, MTS Mobility, Wind & Shaw
4.3. THE US LTE DEVELOPMENTS
- 4.3.1. The US 2008 700 MHZ Auction and its LTE Implications
- 4.3.2. Group-C: The National Footprint LTE Networks: Verizon, AT&T, LightSquared & Sprint
- 4.3.3. Group-D: MetroPCS, US Cellular, Cellular South (C Spire) & Leap Wireless
- 4.3.4. Group-E: CenturyLink & Cox Wireless
- 4.3.5. Group F: T-Mobile & Clearwire
- 4.3.6. The Dish-Networks Proposal to FCC
4.4. NA: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE &ADOPTION

5. THE LATAM LTE DEPLOYMENTS, SPECTRUM, ADOPTION AND INFRASTRUCTURE

5.1. OVERVIEW OF THE LATAM LTE AND LTE NETWORKS-COUNTRIES SEGMENTATION
5.2. GROUP-A1: ARGENTINA&BRAZIL
5.3. GROUP-A1, CHILE, MEXICO &VENEZUELA
5.4. GROUP-B: COLOMBIA, PARAGUAY, PERU , URUGUAY&PANAMA
5.5. GROUP-C: ECUADOR, BOLIVIA, DOMINICAN R., COSTA RICA, GUATEMALA, HONDURAS, JAMAICA&NICARAGUA
5.6. LATAM: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE &ADOPTION

6. THE DEVELOPED APAC'S LTE DEPLOYMENTS, SPECTRUM, ADOPTION & INFRASTRUCTURE

6.1. OVERVIEW OF THE DAPAC LTE AND LTE NETWORKS SEGMENTATION
6.2. GROUP-A: JAPAN&KOREA...
6.3. GROUP-B: AUSTRALIA&NEW ZEALAND
6.4. GROUP-C: HONG KONG&SINGAPORE
6.5. GROUP-D: TAIWAN
6.6. DAPAC: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE &ADOPTION

7. THEWESTERN EUROPEAN LTE DEPLOYMENTS, ADOPTION & INFRASTRUCTURE

7.1. OVERVIEW OF THEWESTERN EUROPEAN LTE AND LTE NETWORKS SEGMENTATION
7.2. GROUP-A: SWEDEN, NORWAY, FINLAND&DENMARK
7.3. GROUP-B: GERMANY, FRANCE, ITALY, SPAIN & THE UK
7.4. GROUP-C: AUSTRIA, BELGIUM, NETHERLANDS &SWITZERLAND
7.5. GROUP-D: GREECE, IRELAND&PORTUGAL
7.6.WE: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE&ADOPTION

8. THE EASTERN EUROPEAN LTE DEPLOYMENTS, SPECTRUM, ADOPTION AND INFRASTRUCTURE

8.1. OVERVIEW OF THE EASTERN EUROPEAN LTE AND LTE NETWORKS SEGMENTATION
8.2. GROUP-A: CZECH R, SLOVAK R. & SLOVENIA
8.3. GROUP-B: ESTONIA, HUNGARY, LATVIA, LITHUANIA&POLAND
8.4. GROUP-C: ALBANIA, BULGARIA, CROATIA, ROMANIA&SERBIA
8.5. GROUP-D: KAZAKHSTAN, UZBEKISTAN & TAJIKISTAN
8.6. GROUP-E: AZERBAIJAN, ARMENIA, BELARUS&UKRAINE
8.7. EE: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE& ADOPTION

9. ROW'S LTE DEPLOYMENTS, SPECTRUM. ADOPTION, DEVICES & INFRASTRUCTURE

9.1. OVERVIEW OF ROW'S LTE AND LTE NETWORKS SEGMENTATION
9.2. GROUP-A: INDIA......
9.3. GROUP-B: RUSSIA
9.4. GROUP-C: BAHRAIN, KUWAIT, QATAR, SAUDI ARABIA & UAE
9.5. GROUP-D: EGYPT, JORDAN, LIBYA, OMAN & TURKEY
9.6. GROUP-E: KENYA, NIGERIA, & SOUTH AFRICA
9.7. GROUP-F: INDONESIA, MALAYSIA, PHILIPPINES, & THAILAND
9.8. ROW: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE&ADOPTION

10. THE CHINESE TD-LTE DEPLOYMENTS, SPECTRUM. ADOPTION, & INFRASTRUCTURE

10.1. THE CHINESE TD-LTE
10.2. CHINA: EVOLUTION OF THE LTE TIMELINE, NETWORKS, COVERAGE &ADOPTION

11. HISTORICAL-FORECASTED LTE COVERAGE, MACRO-PICO-FEMTO BS SALES&REVENUE (2010-15)

11.1. SUMMARY OF ABBREVIATIONS AND DEFINITIONS USED
11.2. NOTES ON THE REPORT'S FORECASTING METHODOLOGY
11.3. THE EVOLUTION OF THEWWLTE NETWORKS, COUNTRIES, COVERAGE AND ADOPTION
11.4. THE MACRO-PICO-FEMTO BS PRICE EVOLUTION
11.5. ORGANIZATION OF THE HISTORICAL & FORECASTED DATA SETS (2010-15)
11.6.WORLDWIDE MACRO, PICO, FEMTO BS VOLUMES&REVENUE - CUMULATIVE (2010-15)
- 11.6.1. Worldwide Macro, Pico, Femto BS Volumes - Cumulative (2010-15)
- 11.6.2. Worldwide Macro, Pico, Femto BS Revenue - Cumulative (2010-15)
11.7. THE MACRO-BSS HISTORICAL-FORECASTED DATA SETS AND THEIR IMPLICATIONS
- 11.7.1. Macro-BSs Annual & Cumulative WW Units Sold-Upgraded and Revenue (200-15)
- 11.7.2. Regional Breakdown of the Annual & Cumulative Macro-BS Upgrades (2010-15)
- 11.7.3. Macro-BSs Secondary and Derivative Metrics (2010-15)
11.8. THE PICO-BSS HISTORICAL-FORECASTED DATA SETS AND THEIR IMPLICATIONS
- 11.8.1. Pico-BSs Annual & Cumulative WW Units Sold-Upgraded and Revenue (200-15)
- 11.8.2. Regional Breakdown of the Annual & Cumulative Pico-BS Sales-Installations (2010-15)
- 11.8.3. Pico-BSs Secondary and Derivative Metrics (2010-15)
11.9. THE FEMTO-BSS FORECASTED DATA SETS AND THEIR IMPLICATIONS
- 11.9.1. Fem-BSs Annual & Cumulative WW Units Sold and Revenue (2010-15)
- 11.9.2. Regional Breakdown of the Annual & Cumulative Femto-BS Sales- (2010-15)
- 11.9.3. Femto-BSs Secondary and Derivative Metrics (2010-15)

Table Of Figures

Figure 1 The Evolution of the Worldwide LTE Networks (2010-15)
Figure 2 The ITU 698-960 MHz Allocations
Figure 3 Annual Growth Rate of the Total Number of Cell-sites in the US and Brazil
Figure 4 LTE Population Coverage 5 Years After Launch
Figure 5 Evolution of the LTE Macro-BS Vendor Market Shares (H1-10 to H2-11)
Figure 6 LTE Macro-BS Vendor Market Shares at the end of 2011
Figure 7 Speculated Macro-BS Market Shares (Cumulative end-2015)
Figure 8 The NTT DoCoMo FOMA Indoor and Outdoor BSs (K)
Figure 9 Berlin: Building Penetration Loss Measurements (UHF)
Figure 10 LTE Sector Capacity (MBits/sec) Simulation (Nokia)
Figure 11 LTE Sector Capacity Simulation and Measurement (Vodafone, MBits/sec)
Figure 12 LTE Small-Cell and Wi-Fi Comparison
Figure 13 LTE Small Cells Classification Cube
Figure 14 Usage of LTE Small Cells Versus Market Tier and Years From Launch
Figure 15 3D Radiation Pattern of a Haft Wave Dipole Antenna
Figure 16 Elevation Coverage of a Near Street Level Mounted Dipole
Figure 17 Total Offloaded Traffic - Indoor Traffic = 70%
Figure 18 Total Offloaded Traffic - Indoor Traffic = 90%
Figure 19 The Canadian-US Nationwide & Regional LTE Launches
Figure 20 Canada: Mobile Market Shares (Q2-11)
Figure 21 Canada: Weighted (POP) Average AWS Spectrum (MHz) Availability in Licensed Areas
Figure 22 Rogers Against Bell in Toronto (D/L Mbps)
Figure 23 MTS Revenue and Profit Referenced to 2006
Figure 24 The US 700 MHz Winners
Figure 25 Verizon's LTE Subs & Quadratic Q4-11 MLS Extrapolation
Figure 26 Variability of the AT&T Downlink Data Rate (MBits/sec)
Figure 27 Sprint WiMAX & LTE Coverage
Figure 28 NYC: Sprint's WiMAX & LTE Coverage
Figure 29 Sprint's G-Block and E-UTRA Class II
Figure 30 US (Atlanta): 3G & 4G Data Rate Tests (Mbps)
Figure 31 Clearwire: Cash & Short Term Investments ($M, to Q2-11) and LLSE to Q4-11
Figure 32 Quarterly New Adds: WW WiMAX, Clearwire and Verizon-LTE (M)
Figure 33 NA: LTE Timeline
Figure 34 Evolution of the Number of NA Countries and Networks
Figure 35 Evolution of the NA Subs & Percentage of Population Covered
Figure 36 Latin America: Ten Top Wireless Markets (Subs referenced to Brazil)
Figure 37 Argentina Q4-10: Mobile Market Shares (M, %)
Figure 38 Brazil: Mobile Market Shares (Q3-11)
Figure 39 Mexico Q2-11: Mobile Market Shares (M, %)
Figure 40 Mexico: The 2.6 GHz Holdings (the whole band)
Figure 41 Venezuela Q1-11: Broadband Connections
Figure 42 Colombia Q4-10: Mobile Market Shares (M, %)
Figure 43 Spectrum Holdings of the Colombian MNOs (MHz)
Figure 44 Paraguay Q4-10: Mobile Market Shares (M,%)
Figure 45 Peru: The Evolution of the Narrowband & Broadband Internet Connections (M)
Figure 46 Peru: The Evolution of Mobile Subs (M)
Figure 47 Uruguay: Mobile Market Shares (Q1-11)
Figure 48 Ecuador: Evolution of the Mobile Subs (M) and Market Shares (%)
Figure 49 Bolivian Market Shares: Broadband Connections (Q2-10)
Figure 50 Guatemala Q4-10: Mobile Market Shares (%)
Figure 51 Guatemala: Fixed and Mobile Connections (to 2010, M)
Figure 52 Jamaica Q4-10: Mobile Market Shares (%)
Figure 53 Nicaragua: Mobile Penetration 2000-10 (%)
Figure 54 The LATAM LTE Timeline
Figure 55 Evolution of the Number of LATAM Countries and Networks
Figure 56 Evolution of the LATAM Subs & Percentage of Population Covered
Figure 57 NTT DoCoMo: Forecasted LTE Subs(M)
Figure 58 NTT DoCoMo: Historical & Forecasted LTE Subscribers (K)
Figure 59 The Korean LTE Auction ($M)
Figure 60 SKT & LG U+ LTE Adoption Expectations (Millions of Subs)
Figure 61 Australia: Evolution of Broadband Market Shares
Figure 62 Telstra-VividWireless Download Data Rates (Bits/sec)
Figure 63 New Zealand: Mobile Market Shares (Q1-11)
Figure 64 New Zealand: TV Platform Market Shares (%)
Figure 65 New Zealand: Population in 16 Largest Cities (M)
Figure 66 New Zealand: Spectrum Holdings (MHz One Way)
Figure 67 The New Zealand Rolling ASO
Figure 68 Singapore: Mobile Market Shares (Q1-11)
Figure 69 Taiwan: Exports of WiMAX CPEs (K)
Figure 70 Taiwan: " Conservative" WiMAX-Subs Forecasts (K) and Reality
Figure 71 The DAPAC LTE Timeline
Figure 72 Evolution of the Number of DAPAC Countries and Networks
Figure 73 Evolution of the DAPAC Subs & Percentage of Population Covered
Figure 74 Sweden: Mobile Market Shares (subs, Q1-11)
Figure 75: TeliaSonera LTE Bands
Figure 76 Sweden: Are you Going to Adopt LTE in a Year's Time?
Figure 77 Norway: Mobile Market Shares (subs, Q1-11)
Figure 78 Mobile Market Shares (Q2-11)
Figure 79 The LTE Launches in the Five Major WE Markets
Figure 80 Spectrum Holdings of the UK MNOs (MHz)
Figure 81 Austrian Mobile Market Shares (Subs, Q1-11)
Figure 82 Austrian Urban Centers - Population CDF
Figure 83 Netherlands: Mobile Market Shares (Subs, Q2-11)
Figure 84 Netherlands: Total Mobile Revenue Referenced to H2-10 ($B)
Figure 85 WE: LTE Timeline
Figure 86 Evolution of the Number of WE Countries and Networks
Figure 87 Evolution of the WE Subs & Percentage of Population Covered
Figure 88 Evolution of the Czech Broadband Market Shares
Figure 89 Slovenia Mobile Market Shares (Q1-11)
Figure 90 Hungarian Mobile Market Shares (Q2-11)
Figure 91 Hungary: Fixed & Mobile Broadband Evolution
Figure 92 Lithuania: Mobile Market Shares (Q1-11)
Figure 93 Lithuania: Evolution of the Mobile Broadband Subs(K) & Penetration in Total Population
Figure 94 Croatia: MNOs, Affiliations & Market Shares (Q2-11)
Figure 95 Croatia: Fixed & Mobile Broadband Evolution
Figure 96 Uzbekistan: POP (%) Versus City Rank
Figure 97 Armenia: MNOs, Affiliations & Market Shares (Q2-10)
Figure 98 EE: LTE Timeline
Figure 99 Evolution of the Number of EE Countries and Networks
Figure 100 Evolution of the EE Subs & Percentage of Population Covered
Figure 101 India: Mobile Subs, Penetration and Market Shares (August 2010)
Figure 102 India: Mobile Penetration in the BWA Licensed Geographies
Figure 103 Qatar Mobile Market Shares (Subs, Q2-11)
Figure 104 Saudi Arabia: Mobile Market Shares (Q2-11)
Figure 105 Kenya: Mobile Market Shares (Q2-11)
Figure 106 Kenya: GDP Per Capita
Figure 107 Kenya: Broadband Connections (K)
Figure 108 Kenya: POP (%) Versus City Rank
Figure 109 Kenya: Spatial POP. Distribution
Figure 110 Nigeria: Mobile Market Shares (Q2-11)
Figure 111 Nigeria: Broadband Connections
Figure 112 South Africa: Mobile Market Shares (Q2-11)
Figure 113 Malaysia: Mobile Market Shares (Q2-11)
Figure 114 Malaysia: Tentative 2.6 GHz LTE Allocations
Figure 115 Thailand: Mobile Market Shares (Q4-10)
Figure 116 RoW: LTE Timeline
Figure 117 Evolution of the Number of RoW Countries and Networks
Figure 118 Evolution of the RoW Subs & Percentage of Population Covered
Figure 119 CN: LTE Timeline
Figure 120 Evolution of the Number of CN Networks
Figure 121 Evolution of the CN Subs & Percentage of Population Covered
Figure 122 Evolution of the Number of WW Countries and Networks
Figure 123 Evolution of the WW Subs (M) & Percentage of Population Covered
Figure 124 Regional LTE Networks in 2015
Figure 125 Regional LTE Subscribers (M,%) in 2015
Figure 126 Regional Population Coverage (%) in 2015
Figure 127 Average Number of Subscribers per Network (M) in 2015
Figure 128 Average 3 Sector LTE Macro-BS Pricing
Figure 129 Average Pico-BS LTE Pricing
Figure 130 Average 3 Sector LTE Femto-BS Pricing
Figure 131 WW: LTE Pico BSs as a Percentage of the Pico & Macro BS
Figure 132 WW: LTE Macro, Pico Units /Sales- Upgrades/Cumulative-Annual (2010-15)
Figure 133 WW: Femto Units(M) Sales /Cumulative-Annual
Figure 134 Worldwide Macro, Pico & Femto - Annual Sales Revenue (M)
Figure 135 Worldwide Macro, Pico, Femto BS Revenue - Cumulative (2010-15)
Figure 136 WW: Macro-BSs Annual & Cumulative Units Sold-Upgraded (200-15)
Figure 137 WW: Macro-BSs Annual & Cumulative Revenue of Sold-Upgraded BSs (200-15, $M))
Figure 138 Regional Shares of the Cumulative Macro-BSs Sold-Upgraded in 2010-15
Figure 139 Regional Breakdown of the Macro-BSs Annually Sold-Upgraded (2000-15)
Figure 140 Regional Breakdown of the Macro-BSs Cumulatively Sold-Upgraded (2000-15)
Figure 141 Top 20 Networks in Macro-BS Upgrades to LTE
Figure 142 Worldwide: Macro-BS per 1000 Covered POP & 1000 Subscribing POP
Figure 143 Regional Breakdown of Macro-BS Upgrades to LTE per 1000 LTE-Covered POP
Figure 144 Regional Peaks of the Macro-BSs Annually Sold-Upgraded (2010-15)
Figure 145 LTE Regional Macro-BSs Per 1000 Covered POP - 2015
Figure 146 WW: Pico-BSs Annual & Cumulative Units Sold-Installed (200-15)
Figure 147 WW: Pico -BSs Annual & Cumulative Revenue of Sold-Installed BSs (200-15, $M))
Figure 148 Timing of the Macro and Pico Deployments
Figure 149 LATAM: Population Coverage (%) and Number of LTE Networks (normalized to 2015)
Figure 150 Regional Shares of the Cumulative Pico BSs Sales-Installations in 2010-15
Figure 151 Regional Breakdown of the Pico-BSs Annually Sold-Installed (2000-15)
Figure 152 Regional Breakdown of the Pico-BSs Cumulatively Sold-Installed (2000-15)
Figure 153 WW: Femto-BSs Annual & Cumulative Units Sold (2010-15)
Figure 154 WW: Femto-BSs Annual & Cumulative Revenue of Sales (2010-15, $M)
Figure 155 Regional Shares of the Cumulative Femto-BSs Sales-in 2010-15
Figure 156 Regional Breakdown of the Fico-BSs Annually Sold (2000-15)
Figure 157 Regional Breakdown of the Femto-BSs Cumulatively Sold (2000-15)
Figure 158 Regional Penetration of Femto-Cells in LTE Subs (2010-15)
Figure 159 Penetration of Femto-BSs in LTE Subs - 2015

Table Of Tables

Table 1 LTE Networks - Regional Breakdown (2010-15, M)
Table 2 LTE Countries - Regional Breakdown (2010-15, M)
Table 3 Percentage Population Covered- Regional Breakdown (2010-15, %)
Table 4 LTE Subscribers - Regional Breakdown (2010-15, M)
Table 5 LTE Macro-BS Upgrades - Regional Breakdown (2010 -15) - Cumulative
Table 6 LTE Macro-BS Upgrades - Regional Breakdown (2010 -15) - Annual
Table 7 LTE Macro-BS Upgrades - Regional Annual Revenue Breakdown (2010 -15,$ M)
Table 8 LTE Pico-Cells Installed - Regional Breakdown (2010 -15) - Cumulative
Table 9 LTE Pico-Cells Installed - Regional Breakdown (2010 -15) - Annual
Table 10 LTE Pico-Cells Installed - Regional Annual Revenue Breakdown (2010 -15, $M)
Table 11 LTE Femtocell Sales - Regional Breakdown (2010 -15, M) - Cumulative
Table 12 LTE Femtocell Sales - Regional Breakdown (2010 -15, M) - Annual
Table 13 Femtocell Sales - Regional Revenue Breakdown (2010 -15, $ M)
Table 14 LTE-Networks Launch Schedules in 82 Countries (2010-15)
Table 15 Segmentation of the LTE BSs
Table 16 The Global Prospects of the Eight LTE Small Cell Market Segments
Table 17 Total Traffic Offload by Outdoor Pico-cells
Table 18 Key Characteristics of the Small-Cells Backhaul Bands
Table 19 Segmentation of the NA LTE Networks
Table 20 Segmentation of the Canadian MNOs
Table 21 The US 700 MHz Auction Winners and the Current Status
Table 22 Key Facts on Verizon's LTE Network
Table 23 LTE-Oriented Segmentation of the LATAM Countries
Table 24 LTE-Oriented Segmentation of the EE Countries
Table 25 Active and Researched WE LTE Markets
Table 26 LTE-Oriented Segmentation of the WE Countries
Table 27 The Scandinavian LTE Launches
Table 28 The Results of the Swedish 2.5 GHz Auction
Table 29 The Swedish Digital Dividend
Table 30 The Swedish800 MHz Auction
Table 31 The Results of the Finish 2.5 GHz Auction
Table 32 The Results of the Danish 2.6 GHz Auction
Table 33 The LTE Launches & Status in the Five Major WE Markets
Table 34 The Results of the French 2.6 GHz Auction
Table 35 The Belgian MNOs and the 4th 3G license
Table 36 The Results of the Dutch 2.6 GHz Auction
Table 37 Active and Researched EE LTE Markets
Table 38 LTE-Oriented Segmentation of the EE Countries
Table 39 Estonian MNOs and Affiliations
Table 40 Belarusian MNOs, Affiliations & Intentions
Table 41 LTE-Oriented Segmentation of the RoW Countries
Table 42 Winners of the Indian BWA Auctions and T. Circles
Table 43 Regions of the Report, Countries and Number of LTE Networks
Table 44Segmentation of the BS Space
Table 45 Structure of the Forecasted Data Sets Presentation and Discussion

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The LTE Macro-BS & Small-Cell Report (2010-15)

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