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Overview:

Telecom Network APIs capitalize on existing network infrastructure and platforms to facilitate many new business opportunities for global Communication Service Providers (CSP) to offer Business-to-Business (B2B) services in a Data as a Service (DaaS) basis. One leading beneficiary is WebRTC, which provides a framework, protocols, and API that facilitates real-time interactive voice, video and data in via a Web browser. The requirement is only a WebRTC-enabled browser (HTML5). Web Real-time Communications (WebRTC) is one tool in the toolkit along with Telecom APIs and integration with carrier and OTT apps for a greatly enhanced and blended service experience.

Telecom APIs and Communication Enabled Apps: Technology, Market Outlook, and Forecasts 2016 - 2020 provides an in-depth assessment of the global Telecom Network API market, including business models, business case, best practices, value chain analysis, operator and vendor strategies, vision for the future of telecom data, and a quantitative assessment of the industry from 2016 to 2020. This research also evaluates WebRTC technology, evolving ecosystem, solutions, and applications. It also addresses the role of value chain partners, WebRTC APIs, enterprise applications, telecom operators, and other CSPs within the evolving ecosystem.

The report also assesses WebRTC features/functionality, use cases, and adoption expectations for enterprise and consumers. The report covers the WebRTC solution landscape with vendor analysis focused on business models for each company/solution. The report also forecasts global and regional WebRTC market size. Forecasting provides revenue by categories including solution, service (Implementation, Integration, Consulting, and Maintenance), industry verticals, deployment models, and application. In addition, the report contains forecasts for WebRTC devices and users in globally and regionally from 2016 to 2020.

Target Audience:
API Aggregators
Investment Firms
Application Developers
Mobile Device Vendors
Mobile Network Carriers
Service Bureau Companies
Wireless Infrastructure Vendors
Telecom Managed Service Providers
Major enterprise and businesses of all types

Table Of Contents

Telecom APIs and Communication Enabled Apps: Technology, Market Outlook, and Forecasts 2016 - 2020
Telecom API Marketplace: Strategy, Ecosystem, Players and Forecasts

1 Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Key Findings
1.4 Target Audience
1.5 Companies Mentioned
2 Telecom Network API Overview
2.1 Defining Network APIs
2.2 Why Carriers are Adopting Telecom Network APIs
2.2.1 Need for New Revenue Sources
2.2.2 B2B Services and Asymmetric Business Models
2.3 Telecom Network API Categories
2.3.1 Web Real-time Communications (WebRTC)
2.3.2 SMS and RCS-E
2.3.3 Presence
2.3.4 MMS
2.3.5 Location
2.3.6 Payments
2.3.7 Voice/Speech
2.3.8 Voice Control
2.3.9 Multimedia Voice Control
2.3.10 M2M
2.3.11 SDM/Identity Management
2.3.12 Subscriber Profile
2.3.13 QoS
2.3.14 ID/SSO
2.3.15 Content Delivery
2.3.16 Hosted UC
2.3.17 Directory
2.3.18 Number Provisioning
2.3.19 USSD
2.3.20 Billing of Non-Digital Goods
2.3.21 Advertising
2.3.22 Collaboration
2.3.23 IVR/Voice Store
2.4 Telecom Network API Business Models
2.4.1 Two-Sided Business Model
2.4.2 Exposing APIs to Developers
2.4.3 Web Mash-ups
2.5 Segmentation
2.5.1 Users by Segment
2.5.2 Workforce Management
2.6 Competitive Issues
2.6.1 Reduced TCO
2.6.2 Open APIs
2.6.3 Configurability
2.7 Percentage of Applications that use APIs
2.8 Telecom API Revenue Potential
2.8.1 Standalone API Revenue vs. Finished Goods Revenue
2.8.2 Telecom API-enabled Mobile VAS Applications
2.8.3 Carrier Focus on Telecom API's for the Enterprise
2.9 Telecom Network API Usage by Industry Segment
2.10 Telecom Network API Value Chain
2.10.1 Telecom API Value Chain
2.10.2 How the Value Chain Evolve
2.10.3 API Transaction Value Split among Players
2.11 Cost for Different API Transactions
2.12 Volume of API Transactions
3 API Aggregation
3.1 The Role of API Aggregators
3.2 Total Cost Usage for APIs with Aggregators
3.2.1 Start-up Costs
3.2.2 Transaction Costs
3.2.3 Ongoing Maintenance/Support
3.2.4 Professional Services by Intermediaries
3.3 Aggregator API Usage by Category
3.3.1 An LBS Case Study: LOC-AID
3.3.2 Aggregation: Intersection of Two Big Needs
3.3.3 The Case for Other API Categories
3.3.4 Moving Towards New Business Models
4 Enterprise and Telecom API Marketplace
4.1 Data as a Service (DaaS)
4.1.1 Carrier Structured and Unstructured Data
4.1.2 Carrier Data Management in DaaS
4.1.3 Data Federation in the DaaS Ecosystem
4.2 API Market Makers 6
4.2.1 mashape
4.2.2 Mulesoft
4.3 Need for a New Type of Application Marketplace: CAM
4.3.1 Communications-enabled App Marketplace (CAM)
4.3.2 CAM Market Opportunities and Challenges
5 Telecom API Enabled App Use Cases
5.1 Monetization of Communications-enabled Apps
5.1.1 Direct API Revenue
5.1.2 Data Monetization
5.1.3 Cost Savings
5.1.4 Higher Usage
5.1.5 Churn Reduction
5.2 Use Case Issues
5.2.1 Security
5.2.2 Interoperability
6 Non-Telecom Network APIs and Mash-ups
6.1 Non-Telecom Network APIs
6.1.1 Twitter
6.1.2 Netflix API
6.1.3 Google Maps
6.1.4 Facebook
6.1.5 YouTube
6.1.6 Flickr
6.1.7 eBay
6.1.8 Last.fm
6.1.9 Amazon Web Services
6.1.10 Bing Maps
6.1.11 Yahoo Web Search API
6.1.12 Shopping.com
6.1.13 Salesforce.com
6.2 Mash-ups
6.2.1 BBC News on Mobile 81
6.2.2 GenSMS emailSMS
6.2.3 Foursquare
6.2.4 Amazon SNS and Nexmo
6.2.5 Triage.me
6.2.6 MappyHealth 8
6.2.7 Lunchflock
6.2.8 Mobile Time Tracking
6.2.9 Fitsquare
6.2.10 GeoSMS
6.2.11 FONFinder
6.2.12 Pound Docs
6.2.13 140Call
6.2.14 Salesforce SMS
7 Carrier Strategies
7.1 Carrier Market Strategy and Positioning
7.1.1 Increasing API Investments
7.1.2 The Rise of SDM
7.1.3 Telecom API Standardization
7.1.4 Carrier Attitudes towards APIs: U.S vs. Asia Pacific and Western Europe
7.2 Carrier API Programs Worldwide
7.2.1 ATandT Mobility
7.2.2 Verizon Wireless
7.2.3 Vodafone
7.2.4 France Telecom
7.2.5 Telefonica
7.3 Carriers and Internal Telecom API Usage
7.3.1 The Case for Internal Usage
7.3.2 Internal Telecom API Use Cases
7.4 Carriers and OTT Service Providers
7.4.1 Allowing OTT Providers to Manage Applications
7.4.2 Carriers Lack the Innovative Skills to Capitalize on APIs Alone
7.5 Carriers and Value-added Services (VAS)
7.5.1 The Role and Importance of VAS
7.5.2 The Case for Carrier Communication-enabled VAS
7.5.3 Challenges and Opportunities for Carriers in VAS
8 API enabled App Developer Strategies
8.1 A Critical Asset to Developers
8.2 Stimulating the Growth of API Releases
8.3 Working alongside Carrier Programs
8.4 Developer Preferences: Google vs Carriers
9 Telecom API Vendor Strategies
9.1 Positioning as Enablers in the Value Chain
9.2 Moving Away from a Box/Product Supplier Strategy
9.3 Telecom API Companies and Solutions
9.3.1 Alcatel Lucent
9.3.2 UnboundID
9.3.3 Twilio
9.3.4 LOC-AID
9.3.5 Placecast
9.3.6 Samsung
9.3.7 ATandT Mobility
9.3.8 Apigee
9.3.9 2600 Hz
9.3.10 Callfire
9.3.11 Plivo
9.3.12 Tropo (now Cisco)
9.3.13 Urban Airship
9.3.14 Voxeo (now Aspect Software)
9.3.15 TeleStax
9.3.16 Intel
9.3.17 Competitive Differentiation
10 Market Analysis and Forecasts 127
10.1 Telecom Network API Revenue 2016 - 2020
10.2 Telecom Network APIs Revenue by API Category 2016 - 2020
10.2.1 Messaging API Revenues
10.2.2 LBS API Revenues
10.2.3 SDM API Revenues
10.2.4 Payment API Revenues
10.2.5 Internet of Things (IoT) API Revenues
10.2.6 Other API Revenues
10.3 Telecom API Revenue by Region 2016 - 2020
10.3.1 Asia Pacific
10.3.2 Eastern Europe
10.3.3 Latin and Central America
10.3.4 Middle East and Africa
10.3.5 North America
10.3.6 Western Europe
11 Technology and Market Drivers for Future API Market Growth
11.1 Service Oriented Architecture (SOA)
11.2 Software Defined Networks (SDN)
11.3 Virtualization
11.3.1 Network Function Virtualization (NFV)
11.3.2 Virtualization beyond Network Functions
11.4 The Internet of Things (IoT)
11.4.1 IoT Definition
11.4.2 IoT Technologies
11.4.3 IoT Applications
11.4.4 IoT Solutions
11.4.5 IoT, DaaS, and APIs (Telecom and Enterprise)
12 Expert Opinion: TeleStax
13 Expert Opinion: Twilio
14 Expert Opinion: Point.io
15 Expert Opinion: Nexmo
16 Appendix
16.1 Research Methodology
16.2 Telecom API Definitions
16.3 More on Telecom APIs and DaaS
16.3.1 Tiered Data Focus
16.3.2 Value-based Pricing
16.3.3 Open Development Environment 2
16.3.4 Specific Strategies
16.3.4.1 Service Ecosystem and Platforms
16.3.4.2 Bringing to Together Multiple Sources for Mash-ups
16.3.4.3 Developing Value-added Services (VAS) as Proof Points
16.3.4.4 Open Access to all Entities including Competitors
16.3.4.5 Prepare for Big Opportunities with the Internet of Things (IoT)

Figures

Figure 1: Wireless Carrier Assets
Figure 2: Telecom API: Standalone vs. Finished Services
Figure 3: RCS and Telecom API Integration 36
Figure 4: RCS Revenue Forecast
Figure 5: Business vs. Consumer Telecom API Focus
Figure 6: Enterprise Dashboard
Figure 7: Enterprise Dashboard App Example
Figure 8: Telecom Network API Value Chain
Figure 9: Value Split among Aggregators, Carriers and Enterprise for API Transactions: 2012 - 2019
Figure 10: API Transaction Costs 2012 - 2019
Figure 11: Volume of API Transactions for a Tier 1 Carrier 2016 - 2020
Figure 12: Cloud Services and APIs
Figure 13: GSMA OneAPI: Benefits to Stakeholders
Figure 14: ATandT Wireless API Catalog
Figure 15: Verizon Wireless API Program
Figure 16: France Telecom (Orange) APIs
Figure 17: Telefonica APIs
Figure 18: Carrier Internal Use of Telecom APIs
Figure 19: UnboundID's Portfolio of Services
Figure 20: Twilio's Portfolio of Services
Figure 21: LOC-AID Exchange Server Architecture
Figure 22: Placecast's ShopAlerts Solution
Figure 23: Apigee Portfolio of Services
Figure 24: Telecom API Revenue 2016 - 2020
Figure 25: Telecom API Revenue by API Category 2016 - 2020
Figure 26: Messaging APIs Revenue 2016 - 2020
Figure 27: LBS APIs Revenue 2016 - 2020
Figure 28: SDM APIs Revenue 2016 - 2020
Figure 29: Payment APIs Revenue 2016 - 2020
Figure 30: IoT API Revenue 2016 - 2020
Figure 31: APIs Revenue for Other Categories 2016 - 2020
Figure 32: Telecom API Revenue by Region 2016 - 2020
Figure 33: Telecom API Revenue Asia Pacific 2016 - 2020
Figure 34: Telecom API Revenue Eastern Europe 2016 - 2020
Figure 35: Telecom API Revenue Latin and Central America 2016 - 2020
Figure 36: Telecom API Revenue Middle East and Africa 2016 - 2020
Figure 37: Telecom API Revenue North America 2016 - 2020
Figure 38: Telecom API Revenue (USD Billions) Western Europe 2016 - 2020
Figure 39: Services Oriented Architecture
Figure 40: Growth of Connected Devices
Figure 41: IoT and Telecom API Topology
Figure 42: Telestax App Store Funnel
Figure 43: On-Premise vs. Twilio
Figure 44: Point.io and API Ecosystem
Figure 45: Different Data Types and Functions in DaaS
Figure 46: Ecosystem and Platform Model
Figure 47: Telecom API and Internet of Things Mediation
Figure 48: DaaS and IoT Mediation for Smartgrid

WebRTC Software, Applications, Services, Solutions, and Devices Market with Global and Regional Forecast

1.0 INTRODUCTION
1.1 EXECUTIVE SUMMARY
1.2 TARGET AUDIENCE
1.3 COMPANIES IN REPORT
2.0 WEBRTC AND WEBRTC MARKET OVERVIEW
2.1 UNDERSTANDING WEBRTC
2.1.1 WEBRTC FEATURES
2.1.2 WEBRTC ADVANTAGES
2.1.3 PEER TO PEER VS. BROWSER TO BROWSER COMMUNICATION
2.1.4 CLICK TO CALL
2.2 EVOLUTION OF WEBRTC
2.3 WEBRTC SOLUTION MARKET
2.4 WEBRTC MARKET FACTORS
2.4.1 GROWTH DRIVERS
2.4.2 MARKET LIMITATIONS
2.4.3 MARKET OPPORTUNITIES
2.5 WEBRTC ECOSYSTEM / VALUE CHAIN
2.5.1 VENDORS
2.5.2 PRODUCTS
2.5.3 SOLUTIONS AND SERVICES
2.5.4 APPLICATIONS
2.5.5 DELIVERY PLATFORMS
2.5.6 END USERS
3.0 WEBRTC TAXONOMY
3.1 WEBRTC TECHNOLOGY
3.1.1 NATIVE APPS VS. WEBRTC
3.1.2 HTML5
3.1.3 WEBRTC AND EXPANSION OF MEDIA/DATA USAGE VIA 4G/LTE
3.1.4 LTE/4G, RCS, AND WEBRTC
3.1.5 CARRIER WIFI AND WEBRTC
3.1.6 CLOUD COMMUNICATION AND WEBRTC
3.1.7 OPEN SOURCE API AND WEBRTC
3.2 WEBRTC ARCHITECTURE
3.3 WEBRTC FUNCTIONALITY
3.3.1 VOICE CALLING 2
3.3.2 REAL TIME MESSAGING
3.4 WEBRTC ENTERPRISE APPLICATION
3.4.1 CUSTOMER FACING ENTERPRISE
3.4.2 IN-HOUSE LICENSES DEVELOPMENT
3.4.3 APPLICATION AND SECURITY
3.5 WEBRTC API
3.5.1 SESSION DESCRIPTION PROTOCOL (SDP)
3.5.2 OPEN REAL-TIME COMMUNICATIONS API (ORCA)
3.5.3 WEBRTC SECURITY
3.5.4 CHROME
3.5.5 FIREFOX
3.5.6 MEDIA STREAM (GETUSERDATA)
3.5.7 HOOKFLASH
3.5.8 MEDIASTREAM API
3.5.9 RTCDATACHANNEL API
3.6 CLOUD RTC PLATFORM
4.0 WEBRTC APPLICATION CASES
4.1 STAGES OF CREATION OF WEBRTC APPLICATION
4.1.1 GETTING STARTED
4.1.2 CREATING VIDEO AUDIO CALLING
4.1.3 USING TEXT
4.1.4 FILE SHARING
4.2 WEBRTC APPLICATIONS
4.2.1 USE OF WEBRTC IN E-LEARNING
4.2.2 WEBRTC IN CORPORATE MEETINGS
4.2.3 WEBRTC AND HTML5 DEVELOPMENTS
4.2.4 WEBRTC FOR THE MOBILE APPLICATIONS
4.3 WEBRTC USE CASES
4.3.1 CUSTOMER CARE
4.3.2 PREMIUM CUSTOMER SERVICES
4.3.3 CUSTOMER WILLINGNESS TO PAY FOR SUCH PREMIUM SERVICES
4.4 ECONOMICS OF WEBRTC
5.0 WEBRTC SOLUTION MARKET FORECAST 2016 - 2020
5.1 GLOBAL MARKET REVENUE FORECAST 2016 - 2020
5.2 REGIONAL REVENUE FORECAST 2016 - 2020
5.2.1 NORTH AMERICA COUNTRY WISE REVENUE FORECAST 2016 - 2020
5.2.2 WESTERN EUROPE COUNTRY WISE REVENUE FORECAST 2016 - 2020
5.2.3 APAC COUNTRY WISE REVENUE FORECAST 2016 - 2020
5.2.4 EASTERN EUROPE COUNTRY WISE REVENUE FORECAST 2016 - 2020
5.2.5 LATIN AMERICA COUNTRY WISE REVENUE FORECAST 2016 - 2020
5.2.6 MIDDLE EAST and AFRICA COUNTRY WISE REVENUE FORECAST 2016 - 2020
5.3 WEBRTC REVENUE FORECAST BY SOLUTION AND SERVICE 2016 - 2020
5.4 WEBRTC SERVICE SEGMENT REVENUE FORECAST 2016 - 2020
5.5 WEBRTC REVENUE FORECAST BY INDUSTRY VERTICAL 2016 - 2020
5.6 DEPLOYMENT MODEL WISE REVENUE FORECAST 2016 - 2020
5.7 WEBRTC REVENUE FORECAST BY MAJOR APPLICATION CATEGORY 2016 - 2020
5.8 GLOBAL WEBRTC DEVICE FORECAST 2016 - 2020
5.9 WEBRTC DEVICE FORECAST BY REGION 2016 - 2020
5.10 GLOBAL WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.11 WEBRTC ACTIVE USER FORECAST BY REGION 2016 - 2020
5.11.1 NORTH AMERICA WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.11.2 WESTERN EUROPE WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.11.3 APAC WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.11.4 EASTERN EUROPE WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.11.5 LATIN AMERICA WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.11.6 MIDDLE EAST and AFRICA WEBRTC ACTIVE USER FORECAST 2016 - 2020
5.12 CSP DRIVEN GLOBAL WEBRTC ACTIVE USER 2016 - 2020
6.0 ROLE OF TELECOM OPERATORS AND CSPS
6.1 CARRIER INTEGRATION
6.2 NON-CARRIER PARTNERSHIPS
6.3 COMMUNICATION MEDIATOR
6.4 TELECOM VALUE-ADDED SERVICES (VAS)
6.5 NEW BUSINESS MODELS AND OPPORTUNITIES
6.5.1 TELEFONICA CASE STUDY
6.5.2 ANOTHER POTENTIAL FOR CSPS: WEBRTC AND TOLL-FREE CALLING
6.6 TELECOM API
6.7 ROLE OF CSPS
7.0 WEBRTC VENDOR LANDSCAPE
7.1 OVERALL COMPETITIVE LANDSCAPE
7.1.1 PLATFORM VENDORS
7.1.2 VOICE SOLUTION VENDORS
7.1.3 VIDEO SOLUTION VENDORS
7.1.4 CONFERENCE SOLUTION PROVIDERS
7.1.5 TELECOM WEBRTC CARRIER
7.1.6 ON-PREMISE VENDORS
7.1.7 OTT COMMUNICATION PROVIDERS
7.1.8 BULK SMS VENDORS
7.1.9 LEARNING AND DEVELOPMENT VENDORS
7.2 ALCATEL LUCENT
7.2.1 OVERVIEW
7.2.2 ANALYSIS
7.3 ATandT
7.3.1 OVERVIEW
7.3.2 ANALYSIS
7.4 AVAYA
7.4.1 OVERVIEW
7.4.2 ANALYSIS
7.5 CAFEX
7.5.1 OVERVIEW
7.5.2 ANALYSIS
7.6 CISCO SYSTEMS
7.6.1 OVERVIEW
7.6.2 ANALYSIS
7.7 DIALOGIC
7.7.1 OVERVIEW
7.7.2 SWOT ANALYSIS
7.8 ERICSSON
7.8.1 OVERVIEW
7.8.2 ANALYSIS
7.9 GENBAND
7.9.1 OVERVIEW
7.9.2 ANALYSIS
7.10 GOOGLE
7.10.1 OVERVIEW
7.10.2 ANALYSIS
7.11 HUAWEI TECHNOLOGIES
7.11.1 OVERVIEW
7.11.2 ANALYSIS
7.12 IBM CORPORATION
7.12.1 OVERVIEW
7.12.2 SWOT ANALYSIS
7.13 MITEL NETWORKS
7.13.1 OVERVIEW
7.13.2 ANALYSIS
7.14 ORACLE
7.14.1 OVERVIEW
7.14.2 ANALYSIS
7.15 PLIVO
7.15.1 OVERVIEW
7.15.2 ANALYSIS
7.16 QUOBIS
7.16.1 OVERVIEW
7.16.2 SWOT ANALYSIS
7.17 SONUS
7.17.1 OVERVIEW
7.17.2 ANALYSIS
7.18 TEMASYS
7.18.1 OVERVIEW
7.18.2 ANALYSIS
7.19 TOKBOX TELEFONICA
7.19.1 OVERVIEW
7.19.2 ANALYSIS
7.20 TWILIO
7.20.1 OVERVIEW
7.20.2 ANALYSIS
8.0 FUTURE OF WEBRTC
8.1 BEYOND VOICE/VIDEO AND BROWSERS: WEBRTC AND CDNS
8.2 HYBRID P2P AND SERVER-BASED CDN
8.3 EMERGING WEBRTC ISSUES AND OPPORTUNITIES
8.4 WEBRTC IMPLEMENTATION STATUS
8.5 WEBRTC APPLICATIONS IN MACHINE LEARNING AND 5G
9.0 RECOMMENDATIONS
9.1 COMMUNICATION SERVICE PROVIDERS
9.2 SOCIAL MEDIA COMPANIES
9.3 CONTENT PROVIDERS
9.4 APPLICATION DEVELOPERS
9.5 COMMERCE PROVIDERS
9.6 INFRASTRUCTURE PROVIDERS
9.7 DEVICE MANUFACTURERS

Figures

Figure 1: WebRTC Framework
Figure 2: WebRTC Value Chain / Ecosystem
Figure 3: WebRTC Architecture
Figure 4: Video Calling using WebRTC Applications
Figure 5: WebRTC Global Market Revenue Forecast 2016 - 2020
Figure 6: WebRTC Market Revenue Forecast by Region 2016 - 2020
Figure 7: WebRTC Market Share by Region 2016 - 2020
Figure 8: North America Revenue Forecast by Country 2016 - 2020
Figure 9: Western Europe Revenue Forecast by Country 2016 - 2020
Figure 10: APAC Revenue Forecast by Country 2016 - 2020
Figure 11: Eastern Europe Revenue Forecast by Country 2016 - 2020
Figure 12: Latin America Revenue Forecast by Country 2016 - 2020
Figure 13: Middle East and Africa Revenue Forecast by Country 2016 - 2020
Figure 14: WebRTC Revenue Forecast Solution vs. Service 2016 - 2020
Figure 15: WebRTC Market Share Solution vs. Service Vertical 2016 - 2020
Figure 16: WebRTC Revenue Forecast by Service Segment 2016 - 2020
Figure 17: WebRTC Revenue Forecast by Industry Vertical 2016 - 2020
Figure 18: WebRTC Revenue Forecast by Deployment Model 2016 - 2020
Figure 19: WebRTC Revenue Forecast by App Category 2016 - 2020
Figure 20: Global WebRTC Enabled Device Forecast 2016 - 2020
Figure 21: WebRTC Enabled Device Forecast by Region 2016 - 2020
Figure 22: WebRTC Enabled Device Share by Region 2016 - 2020
Figure 23: Global WebRTC Active User Forecast 2016 - 2020
Figure 24: WebRTC Active Users by Region 2016 - 2020
Figure 25: WebRTC Active Users Share by Region 2016 - 2020
Figure 26: WebRTC Active Users North America 2016 - 2020
Figure 27: WebRTC Active Users Western Europe 2016 - 2020
Figure 28: WebRTC Active Users APAC in Million 2016 - 2020
Figure 29: WebRTC Active Users Eastern Europe 2016 - 2020
Figure 30: WebRTC Active Users Latin America 2016 - 2020
Figure 31: WebRTC Active Users ME and Africa 2016 - 2020
Figure 32: Carrier Driven Global WebRTC Active Users 2016 - 2020
Figure 33: WebRTC and IMS Integration Structure
Figure 34: New Business Model in WebRTC Carrier Ecosystem
Figure 35: WebRTC Vendor Competitive Landscape
Figure 36: Avaya WebRTC Ecosystem Diagram
Figure 37: Genband SPiDR Gateway
Figure 38: Oracle WebRTC Session Controller
Figure 39: Sippo WebRTC Application Controller Diagram
Figure 40: WebRTC Progress by Browswer Type
Figure 41: WebRTC at the Center of Coms, Apps, Content, and Commerce

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