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The LTE, LTE-Advanced & 5G Ecosystem: 2016 - 2030 - Infrastructure, Devices, Operator Services, Verticals, Strategies & Forecasts (Report)

The LTE, LTE-Advanced & 5G Ecosystem: 2016 – 2030 – Infrastructure, Devices, Operator Services, Verticals, Strategies & Forecasts



Hello 

Let me offer you the latest SNS Research latest report to you and your team, "The LTE, LTE-Advanced & 5G Ecosystem: 2016 – 2030 – Infrastructure, Devices, Operator Services, Verticals, Strategies & Forecasts" Below is the report highlight and if you like I can send you sample pages for your details inside.
 
With over 500 fully commercial network launches, LTE has become a mainstream technology, and a number of mobile operators have already deployed LTE-Advanced technology. SNS Research estimates that LTE service revenues will account for over $600 Billion in 2016. The figure is further expected to grow at a CAGR of more than 5% over the next four years.

Report Information:

Release Date: Sept 2016
Number of Pages: 399
Number of Tables and Figures: 283
 

Key Questions Answered:

The report provides answers to the following key questions:
    • How big is the LTE, LTE-Advanced and 5G ecosystem?
    • How is the ecosystem evolving by segment and region?
    • What will the market size be in 2020 and at what rate will it grow?
    • What trends, challenges and barriers are influencing its growth?
    • Who are the key infrastructure and device vendors, and what are their strategies?
    • How will FDD LTE investments compare with TD-LTE?
    • What is the outlook for LTE-Advanced adoption?
    • What are the future prospects for unlicensed LTE, VoLTE and eMBMS services?
    • Will future network rollouts adopt a C-RAN architecture?
    • How will NFV and virtualization affect the EPC market?
    • What opportunities exist for small cells and how will their proliferation impact the wider LTE/5G infrastructure market?
    • How much are vendors and operators investing in 5G R&D efforts?
    • What will be the number of 5G subscriptions in 2020 and at what rate will it grow?
    • What are the prospects of millimeter wave technology for 5G radio access networking?
Key Findings:
 
The report has the following key findings:
  • In 2016, mobile operators will pocket over $600 Billion from commercial LTE service revenues. The figure is further expected to grow at a CAGR of more than 5% over the next four years.
  • More than 150 LTE operators have already deployed carrier aggregation technology. By 2020, over 50% of all LTE subscribers will be supported by LTE-Advanced networks.
  • Mobile operators are pursuing a range of technologies including unlicensed LTE (LTE-U, LAA, LWA, MulteFire), VoLTE and eMBMS, as they seek to maximize the value of their LTE investments while addressing mobile data traffic growth.
  • Although 5G is yet to be standardized, vendors are aggressively investing in 5G development efforts with a principal focus on new air interface transmission schemes, higher frequency bands and advanced antenna technologies such as Massive MIMO and beamforming.
  • By 2020, LTE and 5G infrastructure investments are expected to account for a market worth $32 Billion. This includes spending on distributed macrocells, small cells, C-RAN architecture equipment and mobile core solutions.
Topics Covered:
 
The report covers the following topics:
    • LTE/LTE-Advanced technology and market status
    • 5G technology and R&D commitments
    • Market drivers and barriers
    • TCO comparison with legacy technologies
    • LTE/5G infrastructure, devices, subscriptions and service revenue
    • Infrastructure and device vendor share
    • Antenna systems, RAN, mobile core, backhaul and fronthaul deployment strategies
    • Mobile operator reviews, service models, pricing strategies and LTE/5G deployment case studies
    • Unlicensed LTE, VoLTE, RCS, eMBMS and M2M services
    • Vertical markets for LTE/5G networks
    • Industry roadmap and value chain
    • Company profiles and strategies of over 90 ecosystem players including infrastructure  vendors, device OEMs and mobile operators
    • Market analysis and forecasts from 2016 till 2030
Report Overview:
 
As a natural upgrade path for mobile operators from the previously detached GSM, CDMA and TD-SCDMA ecosystems, LTE has emerged as the first truly global mobile communications standard. Commonly marketed as the "4G" standard, LTE promises to provide higher data rates and lower latency at a much lower TCO (Total Cost of Ownership) than 3G technologies.

The TCO and performance is further enhanced by deployment of small cells and the LTE-Advanced standard, which improves performance and data rates using features such as the aggregation of carriers, interference management and advanced antenna techniques.

While LTE and LTE-Advanced deployments are still underway, mobile operators and vendors have already embarked on R&D initiatives to develop so-called "5G" networks, with a vision of commercialization by 2020. 5G is essentially a revolutionary paradigm shift in wireless networking to support the throughput, latency, and scalability requirements of future use cases such as extreme bandwidth augmented reality applications and connectivity management for Billions of M2M (Machine to Machine) devices.

By 2020, LTE and 5G infrastructure investments are expected to account for a market worth $32 Billion. This includes spending on distributed macrocells, small cells, C-RAN architecture equipment and mobile core solutions.

The "LTE, LTE-Advanced & 5G Ecosystem: 2016 – 2030 – Infrastructure, Devices, Operator Services, Verticals, Strategies & Forecasts" report presents an in-depth assessment of the LTE, LTE-Advanced and 5G ecosystem including key market drivers, challenges, technologies, service revenue potential, deployment strategies, vertical market opportunities, mobile operator case studies, R&D initiatives, future roadmap, value chain, vendor assessment and market share. The report also tracks revenue and shipments for both infrastructure and devices, along with subscription and service revenue from 2016 through to 2030. 

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report.
 
Forecast Segmentation:
 
Market forecasts  are provided for each of the following submarkets and their categories
    • LTE/5G Infrastructure Shipments & Revenue
      • Distributed Macrocell Base Stations
      • Small Cells
      • RRHs (Remote Radio Heads)
      • C-RAN BBUs (Centralized RAN Baseband Units)
      • Mobile Core

    • LTE/5G Device Shipments & Revenue
      • Handsets
      • Tablets
      • Embedded M2M Modules
      • USB Dongles
      • Routers

    • LTE/5G Subscriptions and Service Revenue
      • FDD LTE
      • TD-LTE
      • 5G

    • Private LTE/5G Infrastructure Revenue
      • Public Safety
      • Military
      • Energy & Utilities
      • Transportation
      • Mining & Others

    • Regional Markets
      • Asia Pacific
      • Eastern Europe
      • Latin & Central America
      • Middle East & Africa
      • North America
      • Western Europe

Report Pricing:

Single User License: USD 2,500

Company Wide License: USD 3,500

Ordering Process:

Please contact Andy Silva on andy.silva@snsreports.com

Provide the following information:
1.   Report Title -
2.   Report License - (Single User/Company Wide)
3.   Name -
4.   Email -
5.   Job Title -
6.   Company -
7.   Invoice Address -

Please contact me if you have any questions, or wish to purchase a copy. Table of contents mentioned below for your better inside.

I look forward to hearing from you.

Kind Regards

Andy Silva
Marketing Executive
Signals and Systems Telecom
andy.silva@snsreports.com

 

_____________________________________________________________________________________________________________________________________________________

 

Table of Content

 

1 Chapter 1: Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned
 
2 Chapter 2: LTE & LTE-Advanced Ecosystem
2.1 Mobile Broadband Growth
2.2 LTE Technology & Market Momentum
2.2.1 What is LTE?
2.2.2 Architectural Overview & Components
2.2.3 Underlying Technologies & Key Performance Metrics of LTE
2.2.4 Choice of Spectrum Bands
2.2.5 Overtaking WiMAX as the Dominant 4G Standard
2.2.6 Providing an Upgrade Path for Both 3GPP and 3GPP2 Mobile Operators
2.2.7 An Established Market: Over 500 Commercial Deployments
2.2.8 Motivation for LTE-Advanced
2.3 What is LTE-Advanced?
2.3.1 Carrier Aggregation
2.3.2 Optimizing Small Cell Performance
2.3.3 eICIC (Enhanced Inter-Cell Interference Coordination)
2.3.4 Higher Order MIMO
2.3.5 CoMP (Coordinated Multipoint)
2.3.6 Unlicensed Spectrum
2.4 Key Market Drivers: What Factors Are Driving LTE and LTE-Advanced Investments?
2.4.1 Growing Traffic Capacity Demands
2.4.2 Competitive Operator Landscape: Seizing the $1.3 Trillion Opportunity
2.4.3 LTE Value Proposition: Network Performance and Cost Savings
2.4.4 Flexible Spectrum & Spectral Efficiency
2.4.5 Address 2G/3G Legacy Network Congestion
2.4.6 Seamless Interoperability with Legacy Networks
2.4.7 Strategic Choice for CDMA & WiMAX Operators: Join Mainstream Ecosystem
2.4.8 Bringing Broadband to the Masses: Enabling Cheap Mobile Broadband Connectivity
2.4.9 Growing Interest from Vertical Markets
2.4.10 Vendor Endorsement
2.4.11 Narrow Competition from Competing Standards
2.5 Challenges & Inhibiters to the Ecosystem
2.5.1 Time to Market
2.5.2 Operator CapEx
2.5.3 Spectrum Congestion
2.5.4 Impact of RAN Sharing
2.5.5 Social, Political, Economic and Environmental Risks
2.5.6 Committing to Initial Investments
2.5.7 Roaming Challenges
2.5.8 Voice Support: VoLTE Comes to Rescue
2.5.9 Investment Returns: The OTT Threat
2.5.10 Backhaul Capacity Limitations
 
3 Chapter 3: LTE & LTE-Advanced Deployment Strategies
3.1 Antenna & RAN Strategies
3.1.1 Single RAN vs. Overlay Deployment
3.1.2 Adopting an RRH and FTTA Design
3.1.3 Adopting a C-RAN Architecture
3.1.4 Optimal Antenna Selection
3.1.5 Interference Limitation Strategies
3.1.6 Managing Co-Existence with Legacy 3G/2G RF Sites
3.2 EPC/Mobile Core Strategies
3.2.1 Integration of Functions & Virtualization
3.2.2 Deployment Architecture Choices
3.2.3 Supporting Legacy Networks
3.2.4 Integration with IMS
3.2.5 Embedding DPI for Policy Enforcement & Network Optimization
3.3 LTE Backhaul & Fronthaul Strategies
3.3.1 Architectural Impact of X2 Interface
3.3.2 LTE-Advanced Requirements
3.3.3 Growing Backhaul Capacity & Latency Requirements
3.3.4 IPsec
3.3.5 Technology Options: Fiber, Microwave & Millimeter Wave
3.3.6 Developing a HetNet Backhaul Strategy
3.3.7 Synchronization and Timing
3.3.8 Backhaul Sharing
3.3.9 Fronthaul Options: Fiber vs. Wireless
 
4 Chapter 4: Operator Service Models – Monetizing LTE
4.1 LTE as an Enhanced Data Offering
4.1.1 Driving Consumer Uptake of LTE
4.1.2 Enterprise Specific LTE Plans
4.2 VoLTE & RCS: Enabling Integrated Voice, Video & IM Services
4.2.1 Pricing Strategies
4.2.2 Layered Service Offering for Enterprises
4.3 Fixed Broadband Alternative
4.4 M2M Connectivity
4.4.1 Capitalizing on LTE's Performance Characteristics
4.4.2 Impact of Decommissioning 2G/3G Networks
4.5 Wholesale Services
4.6 LTE Broadcast & eMBMS: Is there a Business Case Yet?
 
5 Chapter 5: Unlicensed LTE Networks
5.1 What is Unlicensed LTE?
5.2 Key Technologies
5.2.1 LTE-U
5.2.2 LAA (License Assisted Access)
5.2.3 LWA (LTE - Wi-Fi Link Aggregation)
5.2.4 MPTCP Based LTE - Wi-Fi Aggregation
5.2.5 MulteFire
5.3 Commercial Prospects
5.4 Mobile Operator Commitments
5.5 Wi-Fi Community Concerns
 
6 Chapter 6: Evolving 5G Ecosystem
6.1 What is 5G?
6.2 5G Requirements
6.2.1 Data Volume
6.2.2 Throughput
6.2.3 Response Time & Latency
6.2.4 Device Density
6.2.5 Availability & Coverage
6.2.6 Battery Life
6.2.7 Energy Saving & Cost Reduction
6.3 Development Timeline
6.4 5G Market Drivers
6.4.1 Why the Need for a 5G Standard?
6.4.2 Improving Spectrum Utilization
6.4.3 Advances in Air Interface Transmission Schemes
6.4.4 Gigabit Wireless Connectivity: Supporting Future Services
6.4.5 Moving Towards the IoT (Internet of Things): Increasing Device Density
6.4.6 Towards a Flatter Network Architecture
6.5 Challenges & Inhibitors to 5G
6.5.1 Skepticism
6.5.2 Standardization Challenges: Too Many Stakeholders
6.5.3 Spectrum Regulation & Complexities
6.5.4 Massive MIMO, Beamforming & Antenna Technology Issues
6.5.5 Higher Frequencies Mean New Infrastructure
6.5.6 Complex Performance Requirements
6.5.7 Energy Efficiency & Technology Scaling
6.6 5G Applications & Use Cases
6.6.1 Extreme Bandwidth Applications: Video, Internet Gaming & Augmented Reality
6.6.2 MTC/M2M, IoT & Ubiquitous Communications
6.6.2.1 Short-burst Traffic
6.6.3 Vertical Industries & Safety Critical Domains
 
7 Chapter 7: Enabling Technologies for 5G
7.1 Key Technologies & Concepts
7.1.1 Air Interface: Waveform Options
7.1.2 Millimeter Wave Radio Access
7.1.3 Massive MIMO
7.1.4 Phased Array Antennas
7.1.5 Beamforming
7.1.6 D2D (Device to Device) Communications
7.1.7 Self-Backhauling & Mesh Networking
7.1.8 Cognitive Radio & Spectrum Sensing
7.1.9 Unlicensed Spectrum Usage
7.1.10 LSA (Licensed Shared Access)
7.1.11 Spectrum Aggregation
7.1.12 Integration of VLC (Visible Light Communication)
7.2 Complimentary Technologies
7.2.1 NFV & SDN
7.2.2 HetNet & C-RAN Architecture
7.2.3 Cloud RAN
7.2.4 MEC (Mobile Edge Computing)
7.2.5 Drones & Satellites
7.2.5.1 Satellite Integration in 5G Networks
7.2.5.2 Google and Facebook's Drone Ambitions
7.2.5.3 Interest from Mobile Operators
7.3 How Much is Being Invested in 5G R&D
7.4 R&D Investments by Technology
7.4.1 New Waveforms & Millimeter Wave Radio Access
7.4.2 MIMO, Beamforming & Antenna Technologies
7.4.3 Interference & Spectrum Management
7.4.4 C-RAN, Virtualization & Other Technologies
 
8 Chapter 8: Vertical Markets for LTE & 5G Networks
8.1 Vertical Market Opportunities: Capitalizing on LTE & 5G
8.2 Private LTE & 5G Network Investments
8.3 Key Vertical Markets
8.3.1 Automotive & Transportation
8.3.2 Energy & Utilities
8.3.3 Healthcare
8.3.4 Public Safety
8.3.5 Military
8.3.6 Mining
8.3.7 Smart Cities
8.3.8 Other Sectors
8.4 Vertical Market Case Studies
8.4.1 Abu Dhabi Police
8.4.2 Beach Energy
8.4.3 Busan Transportation Corporation
8.4.4 China Southern Power Grid
8.4.5 Harris County
8.4.6 Qatar MOI (Ministry of Interior)
8.4.7 South Korea's National Disaster Safety Communications Network
8.4.8 Tampnet
8.4.9 TEN (Texas Energy Network)
8.4.10 U.S. Navy
 
9 Chapter 9: Industry Roadmap & Value Chain
9.1 Industry Roadmap
9.1.1 2016 - 2020: Large Scale LTE-Advanced Rollouts
9.1.2 2020 - 2025: The Cloud RAN Era - Moving Towards C-RAN and Virtualization
9.1.3 2025 - 2030: Continued Investments with 5G Network Rollouts
9.2 Value Chain
9.3 Embedded Technology Ecosystem
9.3.1 Chipset Developers
9.3.2 Embedded Component/Software Providers
9.4 Device Ecosystem
9.4.1 Mobile Device OEMs
9.5 RAN Ecosystem
9.5.1 Macrocell RAN OEMs
9.5.2 Pure-Play Small Cell OEMs
9.5.3 Wi-Fi Access Point OEMs
9.5.4 DAS & Repeater Solution Providers
9.5.5 C-RAN Solution Providers
9.5.6 Other Technology Providers
9.6 Transport Networking Ecosystem
9.6.1 Backhaul & Fronthaul Solution Providers
9.7 Mobile Core Ecosystem
9.7.1 Mobile Core Solution Providers
9.8 Connectivity Ecosystem
9.8.1 Mobile Operators
9.8.2 Wi-Fi Connectivity Providers
9.8.3 SCaaS (Small Cells as a Service) Providers
9.9 SON Ecosystem
9.9.1 SON Solution Providers
9.10 SDN & NFV Ecosystem
9.10.1 SDN & NFV Providers
 
10 Chapter 10: Vendor & Operator Landscape
10.1 LTE Infrastructure
10.1.1 Accelleran
10.1.2 Adax
10.1.3 Affirmed Networks
10.1.4 Airspan Networks
10.1.5 Altiostar Networks
10.1.6 Arcadyan Technology Corporation
10.1.7 Argela
10.1.8 ARItel
10.1.9 Artemis Networks
10.1.10 ASOCS
10.1.11 Athonet
10.1.12 Axxcelera Broadband Wireless
10.1.13 BaiCells
10.1.14 Brocade Communications Systems
10.1.15 Casa Systems
10.1.16 Cisco Systems
10.1.17 CommScope
10.1.18 Contela
10.1.19 Core Network Dynamics
10.1.20 Datang Mobile
10.1.21 Ericsson
10.1.22 Fujitsu
10.1.23 Gemtek Technology Company
10.1.24 GENBAND
10.1.25 General Dynamics Mission Systems
10.1.26 Google
10.1.27 GWT (Global Wireless Technologies)
10.1.28 Hitachi
10.1.29 Huawei
10.1.30 ip.access
10.1.31 JRC (Japan Radio Company)
10.1.32 Juni Global
10.1.33 Kumu Networks
10.1.34 Lemko Corporation
10.1.35 Luminate Wireless
10.1.36 Mitel Networks Corporation
10.1.37 NEC Corporation
10.1.38 New Postcom Equipment Company
10.1.39 Nokia Networks
10.1.40 Nutaq
10.1.41 Oceus Networks
10.1.42 Phluido
10.1.43 Polaris Networks
10.1.44 Potevio (China Potevio Company)
10.1.45 Quanta Computer
10.1.46 Qucell
10.1.47 Quortus
10.1.48 Redline Communications
10.1.49 Samji Electronics Company
10.1.50 Samsung Electronics
10.1.51 SerComm Corporation
10.1.52 SK Telesys
10.1.53 SpiderCloud Wireless
10.1.54 Star Solutions
10.1.55 Sunnada (Fujian Sunnada Communication Company)
10.1.56 Tecore
10.1.57 TEKTELIC Communications
10.1.58 Telrad Networks
10.1.59 Telum
10.1.60 WNC (Wistron NeWeb Corporation)
10.1.61 Z-com (ZDC Wireless)
10.1.62 ZTE
10.1.63 ZyXEL Communications Corporation
10.2 LTE Devices
10.2.1 Accelerated Concepts
10.2.2 Apple
10.2.3 ASUS (ASUSTeK Computer)
10.2.4 BBK Electronics Corporation
10.2.5 Belkin International
10.2.6 BlackBerry
10.2.7 Coolpad
10.2.8 D-Link Corporation
10.2.9 Dovado
10.2.10 Fujitsu
10.2.11 Gionee
10.2.12 HTC Corporation
10.2.13 Huawei
10.2.14 Kyocera Corporation
10.2.15 Lenovo
10.2.16 LG Electronics
10.2.17 Meizu
10.2.18 Microsoft Corporation
10.2.19 NEC Mobile Communications
10.2.20 Netgear
10.2.21 Novatel Wireless
10.2.22 Panasonic Corporation
10.2.23 Pantech
10.2.24 Samsung Electronics
10.2.25 Sharp Corporation
10.2.26 Sierra Wireless
10.2.27 Sony Mobile Communications
10.2.28 TCL Communication
10.2.29 Xiaomi
10.2.30 ZTE
10.3 LTE Operators
10.3.1 AT&T
10.3.2 China Mobile
10.3.3 EE
10.3.4 KDDI Corporation
10.3.5 KT Corporation
10.3.6 LG Uplus
10.3.7 NTT DoCoMo
10.3.8 SK Telecom
10.3.9 SoftBank Group
10.3.10 Verizon Communications
 
11 Chapter 11: Market Analysis & Forecasts
11.1 Global LTE Infrastructure Shipments & Revenue
11.1.1 Submarket Segmentation
11.1.2 Regional Segmentation
11.1.3 LTE Distributed Macrocell Base Stations
11.1.3.1 FDD vs. TDD Segmentation
11.1.3.2 FDD LTE Macrocell Base Stations
11.1.3.3 TD-LTE Macrocell Base Stations
11.1.3.4 Regional Segmentation
11.1.4 LTE Small Cells
11.1.4.1 FDD vs. TDD Segmentation
11.1.4.2 FDD LTE Small Cells
11.1.4.3 TD-LTE Small Cells
11.1.4.4 Form Factor Segmentation
11.1.4.5 LTE Femtocells
11.1.4.6 LTE Picocells
11.1.4.7 LTE Microcells
11.1.4.8 Use Case Segmentation
11.1.4.9 Residential LTE Small Cells
11.1.4.10 Enterprise LTE Small Cells
11.1.4.11 Urban LTE Small Cells
11.1.4.12 Rural & Suburban LTE Small Cells
11.1.4.13 Deployment Model Segmentation
11.1.4.14 Indoor LTE Small Cells
11.1.4.15 Outdoor LTE Small Cells
11.1.4.16 Regional Segmentation
11.1.5 LTE C-RAN Architecture Infrastructure
11.1.5.1 Submarket Segmentation
11.1.5.2 LTE RRH
11.1.5.3 Deployment Model Segmentation
11.1.5.4 Indoor LTE RRH
11.1.5.5 Outdoor LTE RRH
11.1.5.6 LTE C-RAN BBU
11.1.5.7 Regional Segmentation
11.1.6 EPC
11.1.6.1 Regional Segmentation
11.2 Global 5G Infrastructure Shipments & Revenue
11.2.1 Submarket Segmentation
11.2.2 Regional Segmentation
11.2.3 5G Distributed Macrocell Base Stations
11.2.4 5G Small Cells
11.2.5 5G C-RAN Architecture Infrastructure
11.2.5.1 Submarket Segmentation
11.2.5.2 5G RRH
11.2.5.3 5G C-RAN BBU
11.2.6 5G Mobile Core
11.3 Global LTE Device Shipments & Revenue
11.3.1 FDD vs. TDD Segmentation
11.3.1.1 FDD LTE Devices
11.3.1.2 TD-LTE Devices
11.3.2 Form Factor Segmentation
11.3.2.1 Handsets
11.3.2.2 Tablets
11.3.2.3 Embedded M2M Modules
11.3.2.4 USB Dongles
11.3.2.5 Routers
11.3.3 Regional Segmentation
11.4 Global 5G Device Shipments & Revenue
11.4.1 Form Factor Segmentation
11.4.1.1 Handsets
11.4.1.2 Tablets
11.4.1.3 Embedded M2M Modules
11.4.1.4 USB Dongles
11.4.1.5 Routers
11.4.2 Regional Segmentation
11.5 Global LTE Subscriptions & Service Revenue
11.5.1 FDD vs. TDD Segmentation
11.5.1.1 FDD LTE Subscriptions
11.5.1.2 TD-LTE Subscriptions
11.5.2 Regional Segmentation
11.6 Global 5G Subscriptions & Service Revenue
11.6.1 Regional Segmentation
11.7 Asia Pacific
11.7.1 LTE Infrastructure
11.7.2 LTE Distributed Macrocell Base Stations
11.7.3 LTE Small Cells
11.7.4 LTE C-RAN Architecture Infrastructure
11.7.5 EPC
11.7.6 5G Infrastructure
11.7.7 LTE Devices
11.7.8 5G Devices
11.7.9 LTE Subscriptions & Service Revenue
11.7.10 5G Subscriptions & Service Revenue
11.8 Eastern Europe
11.8.1 LTE Infrastructure
11.8.2 LTE Distributed Macrocell Base Stations
11.8.3 LTE Small Cells
11.8.4 LTE C-RAN Architecture Infrastructure
11.8.5 EPC
11.8.6 5G Infrastructure
11.8.7 LTE Devices
11.8.8 5G Devices
11.8.9 LTE Subscriptions & Service Revenue
11.8.10 5G Subscriptions & Service Revenue
11.9 Latin & Central America
11.9.1 LTE Infrastructure
11.9.2 LTE Distributed Macrocell Base Stations
11.9.3 LTE Small Cells
11.9.4 LTE C-RAN Architecture Infrastructure
11.9.5 EPC
11.9.6 5G Infrastructure
11.9.7 LTE Devices
11.9.8 5G Devices
11.9.9 LTE Subscriptions & Service Revenue
11.9.10 5G Subscriptions & Service Revenue
11.10 Middle East & Africa
11.10.1 LTE Infrastructure
11.10.2 LTE Distributed Macrocell Base Stations
11.10.3 LTE Small Cells
11.10.4 LTE C-RAN Architecture Infrastructure
11.10.5 EPC
11.10.6 5G Infrastructure
11.10.7 LTE Devices
11.10.8 5G Devices
11.10.9 LTE Subscriptions & Service Revenue
11.10.10 5G Subscriptions & Service Revenue
11.11 North America
11.11.1 LTE Infrastructure
11.11.2 LTE Distributed Macrocell Base Stations
11.11.3 LTE Small Cells
11.11.4 LTE C-RAN Architecture Infrastructure
11.11.5 EPC
11.11.6 5G Infrastructure
11.11.7 LTE Devices
11.11.8 5G Devices
11.11.9 LTE Subscriptions & Service Revenue
11.11.10 5G Subscriptions & Service Revenue
11.12 Western Europe
11.12.1 LTE Infrastructure
11.12.2 LTE Distributed Macrocell Base Stations
11.12.3 LTE Small Cells
11.12.4 LTE C-RAN Architecture Infrastructure
11.12.5 EPC
11.12.6 5G Infrastructure
11.12.7 LTE Devices
11.12.8 5G Devices
11.12.9 LTE Subscriptions & Service Revenue
11.12.10 5G Subscriptions & Service Revenue
 
12 Chapter 12: Infrastructure, Devices, Operator Services & Verticals Summary
12.1 Infrastructure
12.1.1 Commercial Availability
12.1.2 RAN Vendor Share: Who Leads the Market?
12.1.3 The Outlook for Tier 2 Vendors: Samsung and Fujitsu Lead the Market
12.1.4 Impact of Small Cells & Unlicensed Spectrum
12.1.5 EPC Vendor Share
12.1.6 How will NFV Affect the EPC Market?
12.2 Devices
12.2.1 Commercial Device Availability
12.2.2 Are Smartphones the Most Dominant Form Factor?
12.2.3 Vendor Share: Who Leads the Market?
12.2.4 What About Chipsets?
12.3 Subscriptions & Operator Services
12.3.1 Economic Downturn: Initial Deployment Delays
12.3.2 Commercial Availability
12.3.3 How Big is the LTE Service Revenue Opportunity?
12.3.4 Vertical Market Opportunities
12.3.5 Outlook for LTE-Advanced
12.3.6 Moving Beyond Carrier Aggregation
12.3.7 Outlook for LTE Broadcast & eMBMS
12.3.8 Outlook for VoLTE & RCS

 

Thank you once again and looking forward to hearing from you.

 

Kind Regards

 

Andy Silva
Marketing Executive
Signals and Systems Telecom

andy.silva@snsreports.com

 

 

 

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воскресенье, 18 сентября 2016 г.

Re: Новый Яндекс.Вебмастер

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Report - Automotive Cyber Security Market Report 2016-2021

Business Report Updates
Speak to our consultant now: +44 (0)20 7549 0537 (9-5:30 pm BST)
Automotive Cyber Security Market Report 2016-2021
Forecasts by (Hardware, Software, Network, Cloud) Prospects for Connected Car & Vehicle-to-Everything (V2X, V2V, V2I, V2G, V2H, V2P, IN-V) Communication Safety & Security Within The Internet of Things (IoT) Ecosystem

Automotive & Cyber Industry Report - Published 25th August 2016
"Argus Cyber Security Chosen To Participate in Startup Autobahn".

This is an example of a critical business headline that you need to aware of and how this will impact your company and the industry more broadly. How are you and your company reacting to this news? Are you sufficiently informed?

The latest report from Business Intelligence provider Visiongain, assesses that annual revenues from the automotive cyber security market will exceed $55 million in 2016.

Automotive Cyber security is undeniably one of the fastest-growing submarkets in the car safety and security sector.

What are the trends in the automotive cyber security market?
How is the automotive cyber security market evolving and what is driving and restraining market dynamics?
How will each of the automotive cyber security submarket segments grow and which technologies will prevail?
How will the national markets change by 2021 and which country will lead the automotive cyber security market?
Who are the leading players and their prospects over the forecast period?

We break down a vital sub-segment of the automotive industry, but also by key security types, security providers, and countries' market shares, revenue forecasts and characteristics that will make them lead this specific submarket.

Report Scope:

• Expert opinions from key-opinion leaders in the market

- Argus Cyber Security
- Trillium Inc.


207 tables, charts & graphs analysing the Automotive Cyber Security market

Overview of the global Automotive Cyber Security market status in 2016

• Analysis of solutions and applications for car cyber security

• Overview of the role of standards and regulations

Global Automotive Cyber Security revenue forecast between 2016 and 2021

Automotive Cyber Security submarket revenue s
- Hardware cyber security
- Software cyber security
- Network cyber security
- Cloud cyber security

• Leading national market revenue forecast
- China Automotive Cyber Security Market 2016-2021
- France Automotive Cyber Security Market 2016-2021
- Germany Cyber Security Market 2016-2021
- Israel Automotive Cyber Security Market 2016-2021
- Japan Automotive Cyber Security Market 2016-2021
- Russia Automotive Cyber Security Market 2016-2021
- South Korea Automotive Cyber Security Market 2016-2021
- UK Automotive Cyber Security Market 2016-2021
- US Automotive Cyber Security Market 2016-2021


• Profiles of 10 leading companies in the market, including their automotive cyber security product portfolio
- Argus Cyber Security
- Cisco Systems
- Harman International
- In fineon Technologies AG
- Intel Corporation
- International Business Machines (IBM)
- Karamba Security
- NXP Semiconductors
- Symantec Corporation
- Trillium Inc.


• SWOT analysis of the Automotive Cyber Security market

• Conclusions

Visiongain's study is intended for anyone requiring commercial analysis, data, trends and predictions of the Automotive Cyber Security market and leading companies.

Order our report - Automotive Cyber Security Market Report 2016-2021: Forecasts by (Hardware, Software, Network, Cloud) Prospects for Connected Car & Vehicle-to-Everything (V2X, V2V, V2I, V2G, V2H, V2P, IN-V) Communication Safety & Security Within The Internet of Things (IoT) Ecosystem



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Automotive Cyber Security Market Report 2016-2021
Table of Contents

1. Report Overview
1.1. Global Automotive Cyber Security Market Overview
1.2. Global Automotive Cyber Security Market Segmentation
1.3. Why You Should Read This Report
1.4. How This Report Delivers
1.5. Key Questions Answered by This Analytical Report Include:
1.6. Who is This Report For?
1.7. Methodology
1.7.1. Primary Research
1.7.2. Secondary Research
1.7.3. Market Evaluation & Forecasting Methodology
1.8. Frequently Asked Questions (FAQ)
1.9. Associated Visiongain Reports
1.10. Abo ut Visiongain

2. Introduction to Automotive Cyber Security Market
2.1. Understanding the Vehicle-based Cyber Attack
2.1.1. Types of Vehicle Connectivity
2.1.2. Attack Surface
2.1.3. Who and Why Hacks Cars?
2.1.4. Most Important Mechanisms of Car Cyber Attacks
2.1.5. Stage of Cyber Attacks
2.2. List of Cars with Vulnerabilities
2.3. Media Coverage of Car Hacking
2.4. Government Regulations in Automotive Cyber Security by Region
2.4.1. US Regulations Overview
2.4.2. European Regulations Overview
2.4.3. Chinese Regulations Overview
2.4.4. Russian Regulations Overview
2.4.5. Brazil Regulations Overview
2.5. Automotive Cyber Security Submarkets Definition
2.5.1. Hardware Security
2.5.2. Software Security
2.5.3. Network Security
2.5.4. Cloud Security

3. Global Automotive Cyber Security Market 2016-2021
3.1. Global Automotive Cyber Security Market Forecast 2016-2021
3.2. Regional Automotive Cyber Sec urity Market Forecast 2016-2021
3.3. Regional Automotive Cyber Security Market Share Breakdowns 2016-2021
3.4. Global Automotive Cyber Security Drivers & Restraints 2016

4. Global Automotive Cyber Security Submarket Forecast 2016-2021
4.1. Global Hardware Cyber Security Submarket Forecast 2016-2021
4.2. Global Software Cyber Security Submarket Forecast 2016-2021
4.3. Global Network Cyber Security Submarket Forecast 2016-2021
4.4. Global Cloud Cyber Security Submarket Forecast 2016-2021

5. Leading 9 National Automotive Cyber Security Markets Forecast 2016-2021
5.1. Leading 9 National Automotive Cyber Security Markets Share Forecast 2016-2021
5.2. China Automotive Cyber Security Market 2016-2021
5.2.1. China Country Profile
5.2.2. China Automotive Cyber Security Market Forecast 2016-2021
5.2.3. Cyber Security in China
5.2.4. Automotive Cyber Security in China
5.2.5. China Automotive Cyber Security Market Drivers &a mp; Restraints
5.3. France Automotive Cyber Security Market 2016-2021
5.3.1. France Country Profile
5.3.2. France Automotive Cyber Security Market Forecast 2016-2021
5.3.3. Cyber Security in France
5.3.4. French Views on Automotive Cyber Security
5.3.5. France Automotive Cyber Security Market Drivers and Restraints
5.4. Israel Automotive Cyber Security Market 2016-2021
5.4.1. Israel Country Profile
5.4.2. Israel Automotive Cyber Security Market Forecast 2016-2021
5.4.3. Israel's Cyber Security
5.4.4. Automotive Cyber Security in Israel
5.4.5. Israel Automotive Cyber Security Market Drivers and Restrains
5.5. Japan Automotive Cyber Security Market 2016-2021
5.5.1. Japan Country Profile
5.5.2. Japan Automotive Cyber Security Market Forecast 2016-2021
5.5.3. Cyber Security in Japan
5.5.4. Automotive Cyber Security in Japan
5.5.5. Japan Automotive Cyber Security Market Drivers and Restraints
5.6. Russia Automotive Cyber Security M arket 2016-2021
5.6.1. Russia Country Profile
5.6.2. Russia Automotive Cyber Security Market Forecast 2016-2021
5.6.3. Cyber Security in Russia
5.6.4. Automotive Cyber Security in Russia
5.6.5. Russia Automotive Cyber Security Market Drivers and Restraints
5.7. Germany Cyber Security Market 2016-2021
5.7.1. Germany Country Profile
5.7.2. Germany Automotive Cyber Security Market Forecast 2016-2021
5.7.3. Cyber Security in Germany
5.7.4. Automotive Cyber Security in Germany
5.7.5. Germany Automotive Cyber Security Market Drivers and Restraints
5.8. South Korea Automotive Cyber Security Market 2016-2021
5.8.1. South Korea Country Profile
5.8.2. S. Korea Automotive Cyber Security Market Forecast 2016-2021
5.8.3. Cyber Security in South Korea
5.8.4. South Korean Automotive Cyber Security
5.8.5. South Korea Automotive Cyber Security Market Drivers and Restraints
5.9. US Automotive Cyber Security Market 2016-2021
5.9.1. US Country Pr ofile
5.9.2. US Automotive Cyber Security Market Forecast 2016-2021
5.9.3. Cyber Security in the US
5.9.4. US Automotive Cyber Security
5.9.5. US Automotive Cyber Security Market Drivers and Restraints
5.10. UK Automotive Cyber Security Market 2016-2021
5.10.1. UK Country Profile
5.10.2. UK Automotive Cyber Security Market Forecast 2016-2021
5.10.3. Cyber Security in the UK
5.10.4. UK's Automotive Cyber Security
5.10.5. UK Automotive Cyber Security market Drivers and Restraints

6. Global Automotive Cyber Security Market SWOT Analysis

7. Experts' Opinion
7.1. Argus Cyber Security
7.1.1. Argus Cyber Security's Presence in the Automotive Cyber Security Market
7.1.2. Argus on Automotive Cyber Security Market Dynamics
7.1.3. Argus' View on Effects of Market Regulations
7.1.4. Argus on What Is Important to Customers
7.1.5. Argus on Market Drivers in Automotive Cyber Sec urity
7.1.6. Argus on Challenges and Opportunities in Automotive Cyber Security
7.2. Trillium Inc.
7.2.1. Trillium Presence in Automotive Cyber Security
7.2.2. Trillium on Automotive Cyber Security Market Dynamics
7.2.3. Trillium's View on Effects of Market Regulations
7.2.4. Trillium on What Is Important to Customers
7.2.5. Important Factors In Automotive Cyber Security
7.2.6. Trillium on Market Drivers in Automotive Cyber Security

8. Leading Automotive Cyber Security Companies
8.1. Cisco Systems
8.1.1. Cisco's Role in Cyber Security
8.1.2. Cisco Total Company Sales 2008-2015
8.1.3. Cisco Net Profit 2010-2015
8.1.4. Cisco Cost of Research & Development 2010-2015
8.1.5. Cisco Sales by Segment of Business 2010-2015
8.1.6. Cisco Sales by Region
8.1.7. Cisco Organisational Structure and Number of Employees
8.1.8. Cisco M&As 2013-2015
8.1.9. Cisco's Role in Automotive Cyber Security
8.2. Intel Corporation
8.2.1. Intel Corporation's Role in the Cyber Security Market
8.2.2. Intel Corporation Sales 2008-2015
8.2.3. Intel Corporation Net Profit 2010-2015
8.2.4. Intel Corporation Cost of Research & Development 2010-2015
8.2.5. Intel Corporation Sales by Segment of Business 2013-2015
8.2.6. Intel Corporation Sales by Geographical Location
8.2.7. Intel Corporation No. of Employees
8.2.8. Intel Corporation Acquisitions Activity
8.2.9. Intel Corporation's Role in the Automotive Cyber Security Market
8.3. Symantec Corporation
8.3.1. Symantec's Role in Cyber Security
8.3.2. Symantec Total Company Sales
8.3.3. Symantec Net Profit 2010-2015
8.3.4. Symantec Cost of R&D 2010-2015
8.3.5. Symantec Sales by Business Segment 2014-2015
8.3.6. Symantec Sales by Region 2008-2015
8.3.7. Symantec Organisational Structure and Number of Employees
8.3.8. Symantec Mergers & Acquisitions Activity
8.3.9. Symantec's Role in the Automotive Cyber Secu rity Market
8.4. International Business Machines (IBM)
8.4.1. IBM's Role in Cyber Security
8.4.2. IBM Total Company Sales 2008-2015
8.4.3. IBM Net Profit 2010-2015
8.4.4. IBM Cost of R&D 2010-2015
8.4.5. IBM Sales by Segment of Business 2010-2015
8.4.6. IBM Sales by Geographic Location 2010-2015
8.4.7. IBM Organisational Structure and Number of Employees
8.4.8. IBM Acquisitions Activity
8.4.9. IBM's Role in Automotive Cyber Security
8.5. Harman International
8.5.1. Harman's Role in the Automotive Industry
8.5.2. Harman Total Company Sales 2011-2015
8.5.3. Harman Net Income 2011-2015
8.5.4. Harman Cost of R&D 2012-2015
8.5.5. Harman Sales by Business Segment 2012-2015
8.5.6. Harman Sales by Geographic Location 2012-2015
8.5.7. Harman Organisational Structure and Number of Employees
8.5.8. Harman Acquisitions Activity
8.5.9. Harman's Role in Automotive Cyber Security
8.6. NXP Semiconductors
8.6.1. NXP's Role in the Automotive Industry
8.6.2. NXP Total Company Sales 2010-2015
8.6.3. NXP Net Income / Loss 2010-2015
8.6.4. NXP Cost of R&D 2010-2015
8.6.5. NXP Sales by Business Segment
8.6.6. NXP Sales by Geographic Location 2010-2015
8.6.7. NXP Number of Employees 2010-2015
8.6.8. NXP Acquisitions Activity
8.6.9. NXP's Role in Automotive Cyber Security
8.7. Infineon Technologies AG
8.7.1. Infineon's Role in the Automotive Industry
8.7.2. Infineon Total Company Sales 2011-2015
8.7.3. Infineon Net Income 2011-2015
8.7.4. Infineon Cost of R&D 2011-2015
8.7.5. Infineon Sales by Business Segment 2011-2015
8.7.6. Infineon Sales by Geographic Location 2011-2015
8.7.7. Infineon Number of Employees 2011-2015
8.7.8. Infineon Acquisitions Activity
8.7.9. Infineon's Role in Automotive Cyber Security
8.8. Argus Cyber Security
8.8.1. Argus Cyber Security's Role in Automotive Cyber Security
8.9. Trillium Inc.
8.9.1. Trillium's Role in Automotive Cyber Security
8.9.2. Trilliums' Expansion Plans
8.10. Karamba Security
8.10.1. Karamba's Role in the Automotive Cyber Security Market
8.11. Other Leading Companies in the Automotive Cyber Security Market

9. Conclusions and Predictions

10. Glossary


------------------------------------------------------------
List of Tables

Table 2.1 Mechanisms of Car Cyber Attacks (Type, Description)
Table 2.2 List of Hackable Cars (Manufacturer, Model, Year Make)
Table 2.3 Media Coverage of Car Hacking (Source, Title)
Table 2.4 Summary of the SPY Car Act (Cyber Security Standards, Privacy Standards)
Table 3.1 Global Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 3.2 Regional Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 3.3 Regional Automotive Cyber Security Market Percentage Change in Market Share 2016-2021 (PP Change)
Table 3.4 Global Automotive Cyber Security Market Drivers & Restraints 2016
Table 4.1 Global Automotive Cyber Security Submarket Forecast 2016-2021 (US$, AGR%)
Table 4.2 Automotive Cyber Security Submarket Percentage Change in Market Share 2016-2021 (PP Change)
Table 4.3 Hardware Cyber Security Submarket Forecast 2016-2021 (US$, AGR %, CAGR %)
Table 4.4 Software Cyber Security Submarket Forecast 2016-2021 (US$, AGR %, CAGR %)
Table 4.5 Network Cyber Security Submarket Forecast 2016-2021 (US$, AGR %, CAGR %)
Table 4.6 Cloud Cyber Security Submarket Forecast 2016-2021 (US$, AGR %, CAGR %)
Table 5.1 Leading 9 National Automotive Cyber Security Markets Forecast 2016-2021 (US$, AGR%)
Table 5.2 Leading 9 National Automotive Cyber Security Markets CAGR Forecast 2016-2021 (CAGR %)
Table 5.3 China Country Profile 2016 (GDP $bn, GDP per Capita, Population mn, Internet users %, Annual online transactions $tn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.4 China Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.5 China Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.6 France Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual online transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.7 France Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.8 France Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.9 Israel Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual online transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.10 Israel Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.11 Israel Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.12 Japan Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual online transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.13 Japan Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.14 Japan's Proposed Cyb er Security and Data Protection Requirements
Table 5.15 Functions, Threats and Countermeasure Techniques for in-Vehicle Systems
Table 5.16 Japan Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.17 Russia Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual online transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.18 Russia Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.19 Russia Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.20 Germany Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual online transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.21 Germany Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.22 Germany Proposed Requirements for Cyber and Information Security
Table 5.23 Ge rmany Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.24 S. Korea Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual online transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.25 S. Korea Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.26 S. Korea Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.27 US Country Profile 2016 (GDP $bn, GDP per Capita $, Population mn, Internet users %, Annual Online Transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.28 US Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.29 NHTSA Reports to Support Automotive Cyber Security (Title, Description)
Table 5.30 US Automotive Cyber Security Market Drivers & Restraints 2016
Table 5.31 UK Country Profile 2016 (GDP $bn, GDP per Capita $, Population m n, Internet users %, Annual Online Transactions $bn, Car Sales or Registrations mn, Terrorism Index /10, Cyberwellness Index)
Table 5.32 UK Automotive Cyber Security Market Forecast 2016-2021 (US$, AGR %, CAGR%)
Table 5.33 UK Automotive Cyber Security Market Drivers & Restraints 2016
Table 6.1 Global Automotive Cyber Security Market SWOT Analysis 2016-2021
Table 8.1 Cisco Systems Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
Table 8.2 Cisco Total Company Sales 2008-2015 (US$m, AGR %)
Table 8.3 Cisco Net Profit 2010-2015 (US$m, AGR %)
Table 8.4 Cisco Cost of Research & Development 2010-2015 (US$m, AGR %)
Table 8.5 Cisco Sales by Segment of Business 2010-2015 (US$m, AGR %)
Table 8.6 Cisco Sales by Region 2010-2015 (US$m, AGR %)
Table 8.7 Cisco Number of Employees 2012-2015 (No. of Employees, AGR %)
Table 8.8 Cisco Acquisitions (Date, Company Involved, Value US$m, Detail s)
Table 8.9 Intel Corporation Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, HQ, Founded, No. of Employees, Ticker, Website)
Table 8.10 Intel Corporation Total Company Sales 2008-2015 (US$m, AGR %)
Table 8.11 Intel Corporation Net Profit 2010-2015 (US$m, AGR %)
Table 8.12 Intel Corporation Cost of Research & Development 2010-2015 (US$m, AGR %)
Table 8.13 Intel Corporation Sales by Segment of Business 2013-2015 (US$m, AGR %)
Table 8.14 Intel Corporation Sales by Geographical Location 2013-2015 (US$m, AGR %)
Table 8.15 Intel Corporation Number of Employees 2010-2015 (No. of Employees, AGR %)
Table 8.16 Intel Corporation Acquisitions 2007-2015 (Date, Company Involved, Value US$m, Details)
Table 8.17 Symantec Corporation Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, Net Capital Expenditure US$m, HQ, Founded, IR Contact, No. of Employees, Ticker, Website)
Table 8.18 Symantec Total Company Sales 2008-2015 (US$m, AGR %)
T able 8.19 Symantec Net Profit 2010-2015 (US$m, AGR %)
Table 8.20 Symantec Cost of Research & Development 2010-2015 (US$m, AGR %)
Table 8.21 Symantec Sales by Segment of Business 2014-2015 (US$m, AGR %)
Table 8.22 Symantec Sales by Region 2008-2015 (US$m, AGR %)
Table 8.23 Symantec Number of Employees 2010-2015 (No. of Employees, AGR %)
Table 8.24 Symantec Acquisitions 2005-2015 (Date, Company Involved, Value US$m, Details)
Table 8.25 Key Features of Symantec Embedded Security: Critical System Protection
Table 8.26 Symantec Device Certificate Service (Features, Benefits)
Table 8.27 Features of Symantec Anomaly Detection
Table 8.28 Symantec Secure Application Service (Features, Benefits)
Table 8.29 Full List of Symantec Security Products for Connected Car Market
Table 8.30 IBM Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
Table 8.31 IBM Total Company Sales 2008-2015 (US$ m, AGR %)
Table 8.32 IBM Net Profit 2010-2015 (US$m, AGR %)
Table 8.33 IBM Cost of Research & Development 2010-2015 (US$m, AGR %)
Table 8.34 IBM Sales by Segment of Business 2010-2015 (US$m, AGR %)
Table 8.35 IBM Sales by Geographical Location 2010-2015 (US$m, AGR %)
Table 8.36 IBM Number of Employees 2010-2015 (No. of Employees, AGR %)
Table 8.37 IBM Acquisitions (Date, Company Involved, Value US$m, Details)
Table 8.38 Features of the Secure Gateway ECU
Table 8.39 IBM and G&D End-to-End Solutions Platform for Connected Cars (Component, Description)
Table 8.40 Harman International Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, HQ, Founded, No. of Employees, Ticker, Website)
Table 8.41 Harman Total Company Sales 2011-2015 (US$m, AGR %)
Table 8.42 Harman Net Income 2011-2015 (US$m, AGR %)
Table 8.43 Harman Cost of R&D 2012-2015 (US$m, AGR %)
Table 8.44 Harman Sales by Business Segment 2012-2015 (US$m, AGR %)
Table 8. 45 Harman Sales by Geographic Location 2012-2015 (US$m, AGR %)
Table 8.46 Harman Number of Employees 2012-2015 (No. of Employees, AGR %)
Table 8.47 Harman Acquisitions Activity 2011-2016 (Date, Company, Value US$m, Details)
Table 8.48 Harman 5+1 Automotive Security Framework (Layer, Description)
Table 8.49 Harman Redbend's Automotive Security Solution (Security type, Description)
Table 8.50 TowerSec's ECUSHIELD Properties (Features, Highlights, Description)
Table 8.51 TowerSec's TCUSHIELD Properties (Features, Highlights, Description)
Table 8.52 NXP Semiconductors Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, HQ, Founded, No. of Employees, IR Contact, Ticker, Website)
Table 8.53 NXP Total Company Sales 2010-2015 (US$m, AGR %)
Table 8.54 NXP Net Income / Loss 2010-2015 (US$m)
Table 8.55 NXP Cost of R&D 2010-2015 (US$m, AGR %)
Table 8.56 NXP Sales by Business Segment 2010-2015 (US$m, AGR %)
Table 8.57 NXP Sales by Geographic Loca tion 2010-2015 (US$m, AGR %)
Table 8.58 NXP Number of Employees 2010-2015 (US$m, AGR %)
Table 8.59 NXP Acquisitions Activity 2010-2015 (Date, Company, Value US$m, Details)
Table 8.60 NXP's 4+1 Layer Security Framework (Layer, Description)
Table 8.61 Infineon Technologies AG Profile 2016 (CEO, Total Company Sales US$m, Net Profit US$m, HQ, Founded, No. of Employees, Ticker, Website)
Table 8.62 Infineon Total Company Sales 2011-2015 (US$m, AGR %)
Table 8.63 Infineon Net Income 2011-2015 (US$m, AGR %)
Table 8.64 Infineon Cost of R&D 2011-2015 (US$m, AGR %)
Table 8.65 Infineon Sales by Business Segment 2011-2015 (US$m, AGR %)
Table 8.66 Infineon Sales by Geographic Location 2011-2015 (US$m, AGR %)
Table 8.67 Infineon Number of Employees 2011-2015 (US$m, AGR %)
Table 8.68 Infineon Acquisitions Activity 2004-2016 (US$m, AGR %)
Table 8.69 Argus In-Vehicle Network Protection Products (In-Vehicle Network Protection Product Name, Description, Features)< br>Table 8.70 Argus ECU Protection Products (ECU Protection Product Name, Description, Features)
Table 8.71 Argus Lifespan Protection Products (Lifespan Protection Product Name, Description, Features)
Table 8.72 Argus Aftermarket Protection Products (Aftermarket Protection Product Name, Description, Features)
Table 8.73 Karamba's Carwall Solution (Layer, Description)
Table 8.74 Other Leading Companies in the Automotive Cyber Security Market (Company Name, Headquarters)


------------------------------------------------------------
List of Figures

Figure 1.1 Global Automotive Cyber Security Market Segmentation Overview
Figure 2.1 Common Stages of Cyber Attacks
Figure 3.1 Global Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 3.2 Automotive Cyber Security Regional Coverage (Region)
Figure 3.3 Regional Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 3.4 Regional Automotive Cyber Security Market AGR Forecast 2016-2021(AGR%)
Figure 3.5 Regional Automotive Cyber Security Market Percentage Change in Market Share 2016-2021 (% Change)
Figure 3.6 Regional Automotive Cyber Security Market Share Forecast 2016 (% )
Figure 3.7 Regional Automotive Cyber Security Market Share Forecast 2021 (%)
Figure 4.1 Global Automotive Cyber Security Submarket Forecast 2016-2021 (US$mn, AGR%)
Figure 4.2 Global Automotive Cyber Security Submarket Share Forecast 2016 (% Share)
Figure 4.3 Global Automotive Cyber Security Submarket Share Forecast 2021 (% Share)
Figure 4.4 Automotive Cyber Security Submarket Percentage Change in Market Share 2016-2021 (% Change)
Figure 4.5 Hardware Cyber Security Submarket Forecast 2016-2021 (US$mn, AGR %)
Figure 4.6 Software Cyber Security Submarket Forecast 2016-2021 (US$mn, AGR %)
Figure 4.7 Network Cyber Security Submarket Forecast 2016-2021 (US$mn, AGR %)
Figure 4.8 Cloud Cyber Security Submarket Forecast 2016-2021 (US$mn, AGR %)
Figure 5.1 Leading 9 National Automotive Cyber Security Markets Forecast 2016-2021 (US$, Global AGR%)
Figure 5.2 Leading 9 National Automotive Cyber Security Markets CAGR Forecast 2016-2021 (CAGR %)
Figure 5.3 Lea ding 9 National Automotive Cyber Security Markets Share Forecast 2016 (% Share)
Figure 5.4 Leading 9 National Automotive Cyber Security Markets Share Forecast 2021 (% Share)
Figure 5.5 China Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.6 China Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.7 France Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.8 France Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.9 Israel Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.10 Israel Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.11 Japan Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.12 Japan Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.13 Russia Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.14 Russi a Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.15 Germany Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.16 Germany Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.17 S. Korea Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.18 S. Korea Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.19 US Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.20 US Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 5.21 UK Automotive Cyber Security Market Forecast 2016-2021 (US$mn, AGR %)
Figure 5.22 UK Automotive Cyber Security Market Share Forecast 2016, 2021 (% Share)
Figure 8.1 Cisco Total Company Sales 2008-2015 (US$m, AGR %)
Figure 8.2 Cisco Net Profit 2010-2015 (US$m, AGR %)
Figure 8.3 Cisco Cost of Research & Development 2010-2015 (US$m, AGR %)
Figure 8.4 Cisc o Sales by Segment of Business 2010-2015 (US$m, AGR %)
Figure 8.5 Cisco Sales by Geographical Location 2010-2015 (US$m, AGR %)
Figure 8.6 Cisco Number of Employees 2012-2015 (No. of Employees, AGR %)
Figure 8.7 Cisco Organisational Structure 2015
Figure 8.8 Intel Corporation Total Company Sales 2008-2015 (US$m, AGR %)
Figure 8.9 Intel Corporation Net Profit 2010-2015 (US$m, AGR %)
Figure 8.10 Intel Corporation Cost of Research & Development 2010-2015 (US$m, AGR %)
Figure 8.11 Intel Corporation Sales by Segment of Business 2013-2015 (US$m)
Figure 8.12 Intel Corporation Sales by Geographical Location 2013-2015 (US$m)
Figure 8.13 Intel Corporation Number of Employees 2010-2015 (No. of Employees, AGR %)
Figure 8.14 Symantec Total Company Sales 2008-2015 (US$m, AGR %)
Figure 8.15 Symantec Net Profit 2010-2015 (US$m, AGR %)
Figure 8.16 Symantec Cost of Research & Development 2010-2015 (US$m, AGR %)
Figure 8.17 Symantec Sales by Segment of Bus iness 2014-2015 (US$m)
Figure 8.18 Symantec Sales by Region 2008-2015 (US$m, AGR %)
Figure 8.19 Symantec Organisational Structure
Figure 8.20 Symantec Number of Employees 2010-2015 (No. of Employees, AGR %)
Figure 8.21 IBM Total Company Sales 2008-2015 (US$m, AGR %)
Figure 8.22 IBM Net Profit 2010-2015 (US$m, AGR %)
Figure 8.23 IBM Cost of Research & Development 2010-2015 (US$m, AGR %)
Figure 8.24 IBM Sales by Segment of Business 2010-2015 (US$m, AGR %)
Figure 8.25 IBM Sales by Geographical Location 2010-2015 (US$m, AGR %)
Figure 8.26 IBM Number of Employees 2010-2015 (No. of Employees, AGR %)
Figure 8.27 IBM Organisational Structure
Figure 8.28 Harman Total Company Sales 2011-2015 (US$m, AGR %)
Figure 8.29 Harman Net Income 2011-2015 (US$m, AGR %)
Figure 8.30 Harman Cost of R&D 2012-2015 (US$m, AGR %)
Figure 8.31 Harman Sales by Business Segment 2012-2015 (US$m, AGR %)
Figure 8.32 Harman Sales by Geographic Location 2012-2015 (US $m, AGR %)
Figure 8.33 Harman Organisational Structure
Figure 8.34 Harman Number of Employees 2012-2015 (No. of Employees, AGR %)
Figure 8.35 NXP Total Company Sales 2010-2015 (US$m, AGR %)
Figure 8.36 NXP Net Income / Loss 2010-2015 (US$m)
Figure 8.37 NXP Cost of R&D 2010-2015 (US$m, AGR %)
Figure 8.38 NXP Sales by Business Segment 2010-2015 (US$m, AGR %)
Figure 8.39 NXP Sales by Geographic Location 2010-2015 (US$m, AGR %)
Figure 8.40 NXP Number of Employees 2010-2015 (US$m, AGR %)
Figure 8.41 Infineon Total Company Sales 2011-2015 (US$m, AGR %)
Figure 8.42 Infineon Net Income 2011-2015 (US$m, AGR %)
Figure 8.43 Infineon Cost of R&D 2011-2015 (US$m, AGR %)
Figure 8.44 Infineon Sales by Business Segment 2011-2015 (US$m, AGR %)
Figure 8.45 Infineon Sales by Geographic Location 2011-2015 (US$m, AGR %)
Figure 8.46 Infineon Number of Employees 2011-2015 (US$m, AGR %)

------------------------------------------------------------
Companies Mentioned in this report

1 Mainstream Inc
4FrontSecurity
abc 7
Acano Limited
ADMtek
Airbus
Alchemy API
Alienvault
Allianz
Allianz Ventures
Altera
Altiris
AMX LCC
AppStream
Argus Cyber Security
Arilou
Aspera
Assemblage
AT&T
Audi
Automotive division of Bang & Olufsen
BBC
Bindview Development Corporation
Blackfin Security
Blue Box Group
BMW
BT Group
BT Security
Bull
Catena
Cisco
ClearLeap
Clearwell Systems
Cleversafe
Cloudant
CNN Money
Code Red Technologies
Cognitive Security
Comneon
Company-i
Compose
Composite Software
CrossIdeas
CSL International
Daeja Image Systems Ltd
Delphi
Elektrobit
Embrane
Escrypt
EV World
Explorys
Fiat Chrysler
Fiberlink Communications
Ford
Fortune
Freescale semiconductors
Gideon Technologies
Giesecke & Devrient
GM
Gravitant
Harman
Havok
Healthcare Incorporated
Honda
Hyundai
IBM
Imlogic Inc
Infineon Technologies
Information Age
Insieme Networks
Intel
International Rectifier
Intucell
ITS Connect Promotion Consortium
Jennic
JouleX
Karamba
Kaspersky Lab
KIA
KT mobile networks
Lancope
Lear Corp
Lexus
Linux
LiveOffice
Logic
Magma Venture Partners
Magna International
MaintenanceNet
Mazda
McAfee
Memoir Systems
Mercedes-Benz
MessageLabs
Metacloud
Meteorix LLC
Mi5 Networks
Mitsubishi
Motus Ventures
MWM Acoustics
NCC Group
Neophis
Nissan
NitroDesk
NitroSecurity
Nonghyup Cooperative
Northrop Grumman
Now Factory
nSuite
Nukona
NXP Semiconductors
Opel
OpenDNS
Orange
OurCrowd
ParStream
PasswordBank
Pawaa
Penta Security
PGP Corporation
Phytel
PistonCloud Computing
Portcullis
Portcullis Computer
QNX
Range Rover
Raytheon
Recon Instruments
Redbend
Relicore Inc.
Renault
RT
Safran
SBD
SBI Holdings
Secunet AG
Secure Computing
Security InMotion
Security Group
Security Innovation
Sentrigo
Silveerpop
Simics
SoftLayer
SoftScan
SolveDirect
Sophos
Sourc efire
SsangYong
Star Analytics Inc
StrongLoop
Subaru
Suzuki
SwapDrive
Sygate Technology
Symantec
Symphony Teleca
Tail-f Systems
TalkTalk
Tech Insider
TechWorm
Telenor
Tesla
Thales
The Washington Post
The Weather Company
ThreatGrid
Time
Tools
TowerSec
Toyota
Transparent
Trend Micro
Trillium
Tropo
Trusteer
Ubiquisys
UrbanCode
Utimaco
VeriSign
Veritas
Verizon
Vertex Ventures
Visteon
Volkswagen
Vontu
WHIPTAIL
WholeSecurity
Wind River Systems
Wired
Wolfspeed
WSJ
Xtify Inc
XtreamLok
ZiiLabs

Agencies and Other Organisations Mentioned in This Report

Israel Advanced Technologies Park
Agence National de la Security des Systemes d'Information (ANSSI)
German Alliance for Cyber-S ecurity
US Automotive Security Review Board (ASRB)
China Automotive Cyber Security Committee
China Ministry of Industry and Information Technology
China Society of Automotive Engineers
US Computer Crime and Intellectual Property Section (CCIPS)
Japan Control Systems Security Centre (CSSC)
US Department of Defense
US Department of Justice
European Parliament (EP)
European Union (EU)
Federal Bureau of Investigation (FBI)
German Federal Office for Information Security (BSI)
US Federal Trade Commission (FTC)
General Office of the Communist Party of China (CPC) Central Committee
China General Office of the State Council
UK Government Communications Headquarters (GCHQ)
US Homeland Security
Information Sharing and Analysis Centre (ISAC)
Japan Information Technology Promotion Agency (IPA)
Israel Defence Forces (IDF) cyber force
Israel National Cyber Bureau
Israeli Unit 8200
Japan Ministry of Defence (MoD)
Japan Ministry of Economy, Trade and Industry (METI)
Japan Ministry of internal Affairs and Communications (MIC)
Japan National Institute of Information and Communications Technology (NICT)
Japan National Police Agency
Korea Communications Commission (KCC)
Moscow Engineering Physics Institute
Japanese National Centre of Incident Readiness and Strategy for Cyber Security (NISC)
US National Cyber investigative Joint Task Force (NCIJTF)
South Korean National Cyber Security Centre
US National Highway Traffic Safety Administration (NHTSA)
US National Institute of Standards and Technology (NIST)
US National Protection and Programs Directorate (NPPD)
US National Security Agency (NSA)
South Korean National Security Council (NSC)
US Office of Cyber and infrastructure Analysis (OCIA)
US Office of Cybersecurity and Communications (CS&C)
Russia Ministry of Defence
South Korean National Assembly's Public Administration & Security Committee
ASRB Ste ering Committee (TSC)
German UP KRITIS
US Defense Information Systems Agency (DISA)
US Department of Transportation (USDOT)
World Economic Forum


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