世界のHetNetエコシステム(スモールセル、キャリアWiFi、C-RAN、DAS)...市場調査レポートについてご紹介

【英文タイトル】The HetNet Ecosystem (Small Cells, Carrier WiFi, C-RAN & DAS): 2015 – 2020 – Opportunities, Challenges, Strategies & Forecasts

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【レポートの概要(一部)】

1 Chapter 1: Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Historical Revenue & Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies Mentioned

2 Chapter 2: An Overview of Small Cells, Carrier WiFi, C-RAN & DAS
2.1 An Evolving Heterogeneous Networking Ecosystem
2.1.1 The Growing Demand for Mobile Broadband
2.1.2 Is LTE the Answer to all Capacity Problems?
2.1.3 HetNets: An Evolution of Network Topology
2.2 Small Cells
2.2.1 What Are Small Cells?
2.2.2 Why Deploy Small Cells?
2.2.3 Small Cell Categories
2.2.3.1 Femtocells – Home (e)NBs
2.2.3.2 Picocells
2.2.3.3 Microcells
2.2.3.4 Metrocell: An Emerging Deployment Model
2.2.3.5 Will Metrocell Deployments Encompass Carrier Deployed Femtocells?
2.3 Carrier WiFi
2.3.1 Carrier WiFi Integration Approaches
2.3.2 Unmanaged ‘Open Access’
2.3.3 Managed Offload
2.3.3.1 SIM-based Authentication and Mobile Data Offload
2.3.3.2 Fully Integrated WiFi Access
2.4 C-RAN (Centralized RAN)
2.4.1 What is C-RAN?
2.4.2 Architectural Benefits and Challenges
2.4.3 Key Architectural Components
2.4.3.1 RRH (Remote Radio Head)
2.4.3.2 C-RAN Architecture Small Cell
2.4.3.3 BBU (Baseband Unit)
2.4.3.4 Fronthaul Networking Gear
2.5 DAS (Distributed Antenna System)
2.5.1 What is DAS?
2.5.2 Passive DAS
2.5.3 Hybrid DAS
2.5.4 Active DAS
2.6 Alternative Options for Offloading Mobile Network Coverage and Capacity
2.6.1 Macrocell Network and Spectrum Expansion
2.6.2 Caching & Mobile CDNs
2.7 The Business Case: What is Driving the HetNet Market?
2.7.1 Mobile Data Traffic: The Tsunami of 335 Exabytes
2.7.2 Endorsement from the Carrier Community
2.7.3 In-Building Coverage and Capacity
2.7.4 Enterprise Demand: BYOD is Fuelling Growth
2.7.5 Capacity Offload in Congested Localities
2.7.6 CapEx Savings
2.7.7 Non-Expandability of Macrocell Network
2.8 Challenges & Inhibitors to the HetNet Ecosystem
2.8.1 Security Concerns
2.8.2 Competing HetNet Solutions: DAS vs. Indoor Small Cells
2.8.3 Interference with Macrocell Infrastructure & Spectrum Constraints
2.8.4 Backhaul Requirements and Complexity
2.8.5 C-RAN Fronthaul Challenges
2.8.6 Commercial Immaturity
2.8.7 Economic Constraints
2.8.8 Device Side, Client and OS Issues
2.8.9 Deployment Challenges
2.8.10 Integrating Segregated WiFi Infrastructure into Mobile Networks
2.8.11 Impact of Macrocell LTE Rollouts: Negative or Positive?

3 Chapter 3: Integration & Offloading Technology
3.1 Integrating Small Cells into the Mobile Network
3.1.1 Integration into 3G Networks
3.1.1.1 Iuh based Integration: Residential/Enterprise Femtocells
3.1.1.2 Iub: Picocells, Microcells and Now Even Femtocells
3.1.2 S1: Integration into LTE Networks
3.1.2.1 eNB Small Cell Architecture
3.1.2.2 HeNB Small Cell Architecture
3.2 Integrating C-RAN into the Mobile Network
3.2.1 CPRI (Common Public Radio Interface)
3.2.2 OBSAI (Open Base Station Architecture Initiative)
3.2.3 ORI (Open Radio Interface)
3.2.4 Ethernet-based Solutions
3.3 WiFi: The Evolution from an Ethernet Extension to Wireless Carrier Integration
3.4 Enabling Technologies for WiFi and Cellular RAN Interoperability
3.4.1 ANDSF (Access Network Discovery and Selection Function)
3.4.1.1 Enabling Seamless Mobility
3.4.1.2 Commercial Availability of ANDSF Solutions
3.4.2 Hotspot 2.0
3.4.2.1 Discovery – 802.11u
3.4.2.2 Encryption – 802.11i (WPA2)
3.4.2.3 Authentication – 802.1x (EAP)
3.4.2.4 OMA (Open Mobile Alliance) DM (Device Management)
3.4.2.5 Passpoint WiFi Certification
3.4.3 NGH (NextGen Hotspot) Program
3.4.3.1 Working alongside Hotspot 2.0
3.4.3.2 Enabling Seamless Mobile Network Connectivity
3.4.4 I-WLAN (Interworking Wireless LAN)
3.4.5 WISPr (Wireless Internet Service Provider Roaming)
3.4.6 MSAP (Mobility Services Advertisement Protocol)
3.4.7 WiFi Direct
3.5 Small Cell and Mobile Core Offloading Technologies
3.5.1 LIPA (Local IP Access)
3.5.1.1 Is LIPA Specifically for Small Cells?
3.5.1.2 Use Case Example: Local Network Multimedia Access
3.5.2 SIPTO (Selected IP Traffic Offload)
3.5.2.1 Use Case Example: Core Network Offload
3.5.2.2 The Downside: Is SIPTO Suitable for All Traffic Profiles?
3.5.3 IFOM (IP Flow Mobility and Seamless Offload)
3.5.3.1 Enabling Seamless Integration between WiFi and 3GPP RANs
3.6 WiFi and Cellular RAN Integration: Commercial Implementations to Address the HetNet Challenge
3.6.1 WiFi Integration into Macrocell and Small Cell Base Station Nodes
3.6.2 Policy Driven Control for Small Cell & WiFi
3.6.2.1 Vendor Demonstrations: Dynamic Switching between WiFi and LTE
3.6.3 Commercial Case Study: NGH SIM-based WiFi Access

4 Chapter 4: Industry Roadmap and Value Chain
4.1 HetNet Industry Roadmap: 2010 – 2020
4.1.1 2010 – 2012: Initial Rollouts: In-building Voice Converge & Nomadic Data Access
4.1.2 2013 – 2015: The 4G Expansion Era – Capacity Upgrades with Small Cells & WiFi
4.1.3 2016 – 2020: The C-RAN Era – Large-scale Proliferation of C-RAN Networking Gear
4.2 HetNet Value Chain
4.3 Embedded Technology Ecosystem
4.3.1 Chipset Developers
4.3.2 Embedded Component/Software Providers
4.4 RAN Ecosystem
4.4.1 Macrocell RAN OEMs
4.4.2 Pure-Play and Specialist Small Cell OEMs
4.4.3 WiFi Access Point OEMs
4.4.4 DAS & Repeater Solution Providers
4.4.5 C-RAN Solution Providers
4.4.6 Other Technology & Network Component Providers/Enablers
4.5 Mobile Backhaul & Fronthaul Ecosystem
4.5.1 Backhaul & Fronthaul Solution Providers
4.6 Mobile Core Ecosystem
4.6.1 Core Network Infrastructure & Software Providers
4.7 Connectivity Ecosystem
4.7.1 2G, 3G & 4G Wireless Carriers
4.7.2 WiFi Connectivity Providers
4.7.3 SCaaS (Small Cells as a Service) Providers
4.8 SON Ecosystem
4.8.1 SON Solution Providers
4.9 SDN & NFV Ecosystem
4.9.1 SDN & NFV Providers
4.10 Vendor Landscape: Consolidation & Acquisitions Lead the Way
4.10.1 Broadcom Acquires Percello – Q4’2010
4.10.2 Radisys Acquires Continuous Computing – Q4’2010
4.10.3 Alvarion Acquires Wavion – Q4’2011
4.10.4 Mindspeed Technologies Acquires picoChip – Q1’2012
4.10.5 Ericsson Acquires BelAir Networks – Q2’2012
4.10.6 Crown Castle Acquires NextG Networks – Q2’2012
4.10.7 Qualcomm Acquires DesignArt Networks – Q3’2012
4.10.8 Oracle Acquires Acme Packet – Q1’2013
4.10.9 Oracle Acquires Tekelec – Q1’2013
4.10.10 Cisco Acquires Ubiquisys – Q2’2013
4.10.11 Cobham Acquires Axell Wireless– Q2’2013
4.10.12 Bird Technologies Acquires DeltaNode – Q3’2013
4.10.13 Intel Acquires Mindspeed’s Wireless Assets – Q4’2013
4.10.14 Intel Acquires LSI’s Axxia Networking Business – Q3’2014
4.10.15 Nokia Acquires Panasonic’s Wireless Infrastructure Assets – Q1’2015
4.10.16 Brocade Acquires Connectem – Q1’2015
4.10.17 Fastback Networks Acquires Sub10 Systems – Q1’2015
4.10.18 CommAgility Acquires MIMOon – Q1’2015
4.10.19 CommScope Announces Plans to Acquire TE Connectivity – Q1’2015
4.10.20 Nokia Announces Intention to Acquire Alcatel-Lucent – Q2’2015

5 Chapter 5: HetNet Deployment Models
5.1 Small Cell, C-RAN & DAS Deployment Models
5.1.1 Consumer (Indoor) Deployment Models
5.1.1.1 Home/Residential
5.1.1.2 Enterprise
5.1.2 Carrier Deployment Models
5.1.2.1 Indoor
5.1.2.2 Metro
5.1.2.3 Rural
5.1.3 SCaaS (Small Cells as a Service)
5.2 Carrier WiFi Deployment Models
5.2.1 Mobile Offload
5.2.2 SIM Based
5.2.3 Enterprise
5.2.4 Hotspot
5.2.5 Wholesale
5.2.6 Municipal WiFi

6 Chapter 6: Vertical Markets for HetNets
6.1 Residential
6.2 Healthcare
6.3 Higher Education
6.4 Large Enterprises
6.5 SMBs
6.6 Retail
6.7 Construction
6.8 Public Sector
6.9 Public Safety and Defense

7 Chapter 7: HetNet Backhaul & Fronthaul
7.1 Small Cell Backhaul Technology
7.1.1 Ethernet over Copper
7.1.2 Ethernet over Fiber
7.1.3 DSL
7.1.4 NLOS (Non-Line of Site) Microwave
7.1.5 PTP (Point to Point) Microwave – 6-60 GHz
7.1.6 PTMP (Point to Multipoint) Microwave – 6-60 GHz
7.1.7 Millimeter Wave (E-band) – Licensed and Unlicensed
7.1.8 Satellite Based Backhaul
7.2 C-RAN Fronthaul Technology
7.2.1 Dedicated Fiber (Dark Fiber)
7.2.2 WDM (Wavelength Division Multiplexing)
7.2.3 PON (Passive Optical Network)
7.2.4 OTN (Optical Transport Network)
7.2.5 Ethernet
7.2.6 Microwave
7.2.7 Millimeter Wave (E-band) – Licensed and Unlicensed
7.3 Requirements for HetNet Backhaul & Fronthaul
7.3.1 Form Factor & Environmental Hardening
7.3.2 Power Supply & Consumption
7.3.3 Installation & Provisioning
7.3.4 Integration of OAM and SON Capabilities
7.3.5 Deployment & Maintenance Cost
7.4 Key Issues
7.4.1 Backhaul Sharing: Can Small Cells and Macrocells Share Resources?
7.4.2 Coverage Challenges
7.4.3 Capacity/Peak Throughput Challenges
7.4.4 Will Millimeter Wave be the Preferred Outdoor Small Cell Backhaul Solution?
7.4.5 Is Fronthaul the Bottleneck to C-RAN Rollouts?
7.4.6 Is Ethernet a Feasible Solution for C-RAN Fronthaul?
7.4.7 Is there a Market for Satellite based HetNet Transport?
7.4.8 Assessing the Impact of the SCaaS Ecosystem

8 Chapter 8: Standardization & Regulatory Initiatives
8.1 Small Cell Forum
8.1.1 Mission
8.1.2 Scope of Work
8.1.3 Working Groups
8.1.3.1 Marketing Group
8.1.3.2 Radio & Physical Layer Group
8.1.3.3 Network Group
8.1.3.4 Regulatory Group
8.1.3.5 Services Group
8.1.3.6 Interoperability Group
8.1.3.7 Deployment Group
8.1.3.8 Special Interest & Study Groups
8.2 WBA (Wireless Broadband Alliance)
8.2.1 Mission
8.2.2 Scope of Work
8.2.3 Working Groups
8.2.3.1 Business Workgroup
8.2.3.2 Industry Engagement Workgroup
8.2.3.3 Roaming Workgroup
8.3 WiFi Alliance
8.3.1 Mission
8.3.2 Certification Programs
8.3.2.1 Core Certification
8.3.2.2 Miracast
8.3.2.3 TDLS (Tunneled Direct Link Setup )
8.3.2.4 Passpoint
8.3.2.5 WiFi Direct
8.3.2.6 WiFi Protected Setup
8.3.2.7 WMM (WiFi Multimedia)
8.3.2.8 WMM-Power Save
8.3.2.9 Voice-Personal: Voice over WiFi
8.3.2.10 Voice-Enterprise: Voice over WiFi
8.3.2.11 CWG-RF
8.3.2.12 WMM-Admission Control
8.3.2.13 IBSS with WiFi Protected Setup
8.4 HetNet Forum
8.4.1 Mission
8.4.2 Scope of Work
8.4.3 Governance & Membership
8.5 ETSI
8.5.1 Mission
8.5.2 HetNet Standardization Activities
8.6 3GPP
8.6.1 Mission
8.6.2 HetNet Standardization Activities
8.7 3GPP2
8.7.1 Mission
8.7.2 HetNet Standardization Activities
8.8 NGMN Alliance
8.8.1 Mission
8.8.2 HetNet Initiatives
8.9 Broadband Forum
8.9.1 Mission
8.9.2 HetNet Standardization Activities
8.10 WiMAX Forum
8.10.1 Mission
8.10.2 HetNet Standardization Activities
8.11 Prominent Collaborations
8.11.1 WBA and WiFi Alliance
8.11.2 Small Cell Forum and GSMA
8.11.3 WBA, GSMA and Small Cell Forum
8.11.3.1 Integrating on a Network Level
8.11.3.2 Setting the Stage for Advanced Traffic Management

9 Chapter 9: HetNet Deployments
9.1 SCaaS (Small Cells as a Service) Case Studies
9.1.1 BT
9.1.2 Cellcom
9.1.3 Colt Telecom
9.1.4 Cloudberry Mobile
9.1.5 ClearSky
9.1.6 Virgin Media
9.1.7 Ericsson & Phillips
9.1.8 Alcatel-Lucent & Towerstream
9.2 Carrier WiFi
9.2.1 AT&T Mobility
9.2.2 Comcast
9.2.3 Cox Communications
9.2.4 MetroPCS
9.2.5 Sprint
9.2.6 T-Mobile USA
9.2.7 Verizon Wireless
9.2.8 Free Mobile
9.2.9 BT
9.2.10 MegaFon
9.2.11 Orange
9.2.12 Portugal Telecom
9.2.13 Telefónica (Spain)
9.2.14 T-Mobile Austria
9.2.15 Zain Saudi Arabia
9.2.16 China Mobile
9.2.17 KDDI
9.2.18 LG Uplus
9.2.19 NTT Broadband Platform
9.2.20 TIM Brasil
9.2.21 Other Carriers
9.3 Small Cell, C-RAN, & DAS Deployments
9.3.1 AT&T Mobility
9.3.2 Beeline
9.3.3 Bouygues Telecom
9.3.4 China Mobile
9.3.5 China Unicom
9.3.6 Cosmote
9.3.7 EE
9.3.8 Free Mobile
9.3.9 KDDI
9.3.10 MegaFon
9.3.11 Moldtelecom
9.3.12 Mosaic Telecom
9.3.13 MTC
9.3.14 Movistar
9.3.15 Network Norway
9.3.16 NTT DoCoMo
9.3.17 O2 (Telefonica UK)
9.3.18 Optimus Portugal
9.3.19 Optus
9.3.20 Orange
9.3.21 Orange Romania
9.3.22 SFR
9.3.23 SingTel
9.3.24 SK Telecom
9.3.25 SoftBank
9.3.26 Sprint
9.3.27 StarHub
9.3.28 TOT Thailand
9.3.29 Three UK
9.3.30 Verizon Wireless
9.3.31 Vodafone Australia
9.3.32 Vodafone Czech Republic
9.3.33 Vodafone Germany
9.3.34 Vodafone Greece
9.3.35 Vodafone Hungary
9.3.36 Vodafone Ireland
9.3.37 Vodafone Italy
9.3.38 Vodafone Netherlands
9.3.39 Vodafone New Zealand
9.3.40 Vodafone Portugal
9.3.41 Vodafone Qatar
9.3.42 Vodafone Romania
9.3.43 Vodafone Spain
9.3.44 Vodafone UK
9.3.45 Zain Bahrain
9.3.46 Other Commitments
9.4 Case Studies
9.4.1 Capitalizing on Multiple HetNet Technologies: NTT DoCoMo
9.4.2 The Impact of LTE & Small Cells on Tier 2/3 Wireless Carriers
9.4.3 What is the TCO Impact of HetNet Deployments?


【レポート販売概要】

■ タイトル:世界のHetNetエコシステム(スモールセル、キャリアWiFi、C-RAN、DAS)
■ 英文:The HetNet Ecosystem (Small Cells, Carrier WiFi, C-RAN & DAS): 2015 – 2020 – Opportunities, Challenges, Strategies & Forecasts
■ 発行日:2015年6月1日
■ 調査会社:Signals and Systems Telecom
■ 商品コード:SNST50601
■ 調査対象地域:グローバル
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