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5G Optimization by Network Slicing, Mobile Edge Computing, and Intent Based Networking 2019-2024

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  • 298 Pages
  • August 2019
  • Region: Global
  • Mind Commerce
  • ID: 4828849
1h Free Analyst Time
Description Jump to:

Enterprise and Industrial Customers will Demand Automated Allocation of Network Resources including Network Slicing and Edge Computing Orchestration

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Speak directly to the analyst to clarify any post sales queries you may have.

Communication service providers must take into account use case-specific requirements and parameters, which at the highest level is broken down into three distinct 5G service categories. One of the more important challenges with 5G is juggling multiple requirements found within each category, which are also often mutually exclusive. For example, URRLC applications require high reliability (e.g. works exactly as it is supposed to work exactly when it’s needed) yet also require very low latency and very high bandwidth.

Achieving all three of these in support of quality of service and quality of experience requirements for demanding customers such as smart factories will be a major challenge for service providers. 5G network slicing provides a means by which each of these different use cases may have its own portion of available frequently and associated assignable Quality of Service and/or Quality of Experience configuration. 5G network slicing enables communication service providers to balance the disparate requirements between eMBB, URLLC, and mMTC applications such as availability/reliability, bandwidth, connectivity, cost, elasticity, and latency.

In cellular networks, edge computing via Mobile Edge Computing (MEC) is beneficial for LTE but virtually essential for 5G. This is because MEC facilitates optimization of fifth-generation network resources including focusing communications and computational capacity where it is needed the most. As with network slicing, MEC platforms must be accessible for application administration including provisioning of computational resources as well as orchestration of edge computing and network slicing allocations. This will be absolutely essential to manage the unique and evolving needs of many enterprise, industrial, and government clients, whether they are served legacy carriers, or operate their own private wireless networks.

Another one of the key capabilities is the ability to monitor, identify and react in real-time to changing network conditions. This pertains to network (and related apps and services) provisioning and administration as well as proactively and autonomously managing change in operational conditions. Intent-based networking provides the ability for network orchestration automation, including software that may implement changes autonomously. Networks are increasingly becoming more self-aware and capable of dynamic optimization, often in real-time. In some cases, changes are made to enhance a current state. In other cases, remediation is required to adjust a sub-optimal condition or situation that has gone awry.

This research evaluates enabling technologies and the market outlook for 5G Network slicing. It provides analysis of the market opportunities including Configuration Management, Performance Management, Service Level Agreements, and more. It also includes 5G Network Slicing by specific use cases such as Smart Manufacturing, which includes Remote Monitoring, Supply Chain Management, Asset Management, Real-Time Monitoring, and Network Monitoring. This includes market size through 2024.

This research also evaluates the 5G ecosystem including Mobile Edge Computing (MEC) computing infrastructure providers, managed services vendors, carriers and OTT providers. Our MEC analysis includes a focus on company strategies and offerings relative to current and anticipated future market needs. It also provides a quantitative analysis of the MEC market including segmentation by industry vertical, region of the world, application, and services. It also provides forecasts for MEC based streaming data and real-time data analytics.

This research also provides market forecasts for 2019 to 2024 globally and regionally as well as by technology and solution. This includes Infrastructure (Hardware, Software, Components, and Services - further broken down by programs, API, and SDK), Solutions/Applications, Deployment Type, Degree of Virtualization (Physical Network, Virtual Network, and Hybrid Network), Network Type (WAN, MAN, LAN, PAN), Connection Type (Wired and Wireless - further broken down by 3G, LTE, and 5G), Artificial Intelligence Type (Deep Machine Learning, Deep Neural Network, Machine Vision System, Predictive Analytics, NLP and Voice Recognition), Organization Type (SMB, Enterprise, Government), and Industry Verticals (Automotive, Financial, Government, Healthcare, Manufacturing/Automation, Telecom and IT, and more).

Additionally, it provides quantitative analysis and forecasts for the impact of edge computing and IoT upon the intent-driven networking market. This includes both Cellular/3GPP NB-IoT and non-cellular LPWAN (i.e. Sigfox, LoRa, Weightless, Ingenu). It also provides quantitative analysis and forecasts for the market for securing IBN (e.g. the intent-driven networking security market). It includes quantitative analysis and forecasts for special integration areas such as IBN support for networking involved with autonomous vehicles, smart cities, and more.

Key Findings:


  • Network automation and orchestration will reach nearly $490M by 2024
  • Intent-based networking will fundamentally transform data center operations
  • Network slicing and edge computing must work together to support optimization
  • Combination of AI and IoT (AIoT) will add significant value to Intent-Based Networking
  • Future 5G networks will be fully automated including dynamic resource allocation for QoE

Target Audience:


  • Network operators
  • Infrastructure providers
  • Network optimization companies
  • Application and service developers
  • OSS software and platform providers

With the purchase of this report at the Multi-user License or greater level, you will have access to one hour with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This will need to be used within three months of purchase.

This report also includes a complimentary Excel file with data from the report for purchasers at the Site License or greater level.

Table of Contents


5G Technology Development and Market Deployment1.0 Executive Summary
2.0 Introduction to 5G Technology
2.1 5G Technology and Functionality
2.1.1 Differences Between 5G and 4G
2.2 What 5G Technology Can Offer?
2.3 OSI Layers in 5G
2.3.1 Physical and Medium Access Control Layer
2.3.2 Network Layer
2.3.3 Open Transport Protocol Layer
2.3.4 Application Layer
2.4 5G Motivation and Timeline
2.5 5G Spectrum Options and Utilization
2.6 Elements of 5G
2.7 5G Challenges
2.7.1 Technology Requirements and Service Characteristics
2.7.2 Standardization
2.7.3 Network Challenges
2.7.4 Mobile Device Challenges
2.7.5 Application Challenges
2.8 Technological Requirements of 5G
3.0 5G Enabling Technologies
3.1 Massive MIMO
3.2 Network Functions Virtualization
3.3 SDN and Virtualization
3.4 Cognitive Radios and Transmission Technologies
3.5 Self-Organizing Networks
3.6 Communication, Navigation, Sensing and Services
3.7 Cooperative Communication Functions
3.7.1 Multi-Hop
3.7.2 Caching
3.8 Automated Network Organization
3.8.1 Self-Configuration
3.8.2 Automatic Neighbor Relation
3.8.3 Self-Healing
3.8.4 Self-Organization
3.9 Advanced Traffic Management
3.10 Visible Light Communications
3.11 Energy Efficiency
3.12 Millimeter Wave
3.13 Massive M2M Communications
3.14 C-RAN Architecture
3.15 HetNet Solutions
3.16 C-RAN Solutions
3.17 Large-Scale Cooperative Spatial Signal Processing
3.18 SDR
3.19 Spectrum And Satellite
3.20 Drones, Robots, and High-Altitude Balloons
3.21 Next Gen Technology
3.21.1 Cross Layer Controller
3.21.2 Energy Aware
3.21.3 Security
4.0 5G Regulatory Contributor
4.1 5G Roadmap
4.1.1 5G Requirements
4.1.2 5G Wireless Subsystem
4.1.3 Network Virtualization and Software Networks
4.1.4 Converged Connectivity
4.2 GSMA
4.3 Ofcom UK
4.4 Metis
4.5 5G PPP
4.6 NGMN
4.7 4G Americas
5.0 5G Service Applications in M2M and IoT Environment
5.1 5G Business Case
5.1.1 Sharing Spectrum and Service Spectrum
5.2 Potential 5G Application Use Cases
5.2.1 Virtual Reality Or Tactile Internet
5.2.2 Autonomous Driving and Connected Cars
5.2.3 Wireless Cloud-Based Office and Multi-Person Videoconferencing
5.2.4 M2M Connectivity
5.2.5 50+ Mbps Everywhere
5.2.6 High Speed Train
5.2.7 Remote Computing
5.2.8 Non-Stationary Hot Spots
5.2.9 3D Connectivity: Aircraft
5.2.10 Smart Clothing
5.2.11 Sensor Networks
5.2.12 Natural Disaster
5.2.13 Control Network for Robots
5.2.14 eHealth
5.2.15 3D Connectivity: Drones
5.2.16 Public Safety
5.2.17 Context Aware Service
5.3 Brand New Services Capability
6.0 5G Ecosystem
6.1 5G Requirement
6.1.1 User Driven Requirement
6.1.2 Network Driven Requirement
6.2 Stakeholder Analysis
6.3 Stakeholder Expectation: KPIs Of 5G Technology
6.3.1 Performance Challenges
6.3.2 System Level Challenges
6.4 5G Channel Model
6.5 APIs and SLAs to External Actors
6.6 Key Drivers
6.7 Disruptive Capabilities
6.8 Design Principles
6.9 5G Business Model
6.10 5G Value Proposition
7.0 5G Standardization and Research
7.1 Major Event
7.2 Research, Development and Innovation
7.3 Standardization Activities
7.4 ITU Radio Communication Sector
7.5 3GPP
7.5.1 IMT 2020
7.5.2 RAN Study
7.6 GSMA
7.7 NGMN Alliance
7.8 TIA
7.9 European Commission
7.9.1 Metis
7.9.2 5G PPP
7.9.3 5G PPP Projects
7.9.4 5G Now
7.10 National Governments in Eastern Asia
7.10.1 China IMT-2020
7.10.2 Japan Arib 20B AH
7.10.3 Korea 5G Forum
7.10.4 China's 5G Project
7.11 Mobile Operator and Vendors
7.11.1 SK Telecom and Ericsson
7.11.2 Huawei And Samsung
7.11.3 NTT DoCoMo and Multiple Vendors
7.11.4 Turkcell And Ericsson
7.11.5 5G Norma (Nokia And SK Telecom)
7.11.6 Huawei and Ericsson
7.12 Fantastic-5G
7.13 5GIC
7.14 NYU Wireless
8.0 5G Vendors and Company Analysis
8.1 Ericsson
8.1.1 5G Collaboration and Commitment
8.1.2 5G Strategy and Use Cases
8.1.3 5G Trial Commitment
8.2 Alcatel-Lucent
8.2.1 5G Research and Contributions
8.2.2 5G Strategy
8.2.3 5G Solutions
8.3 Fujitsu
8.3.1 5G Strategy and Solutions
8.3.2 5G Contribution
8.3.3 5G Trial Commitment
8.4 Huawei
8.4.1 5G Vision
8.4.2 5G Strategy
8.4.3 5G Collaboration and Contribution
8.5 Intel
8.5.1 5G Strategy
8.5.2 5G Collaboration and Contribution
8.6 NEC
8.6.1 5G Strategy
8.6.2 5G Contribution
8.6.3 5G Trial Commitment
8.7 Samsung
8.7.1 5G Strategy and Vision
8.7.2 5G Contribution
8.7.3 5G Collaboration
8.7.4 5G Trial Commitment
8.8 ZTE
8.8.1 5G Strategy
8.8.2 5G Contribution
8.8.3 5G Trial Commitment
8.9 Qualcomm
8.9.1 5G Strategy
8.9.2 5G Contribution
8.10 Nokia Networks
8.10.1 5G Vision
8.10.2 5G Strategy
8.10.3 5G Contribution and Collaboration
8.10.4 5G Trial Commitment
8.11 China Mobile
8.11.1 5G Contribution
8.12 Deutsche Telekom
8.12.1 5G Contribution
8.13 NTT DoCoMo
8.13.1 5G Contribution
8.14 SK Telecom
8.14.1 5G Contribution
8.15 Broadcom
8.15.1 5G Contribution
8.16 LG U+
8.17 SingTel
9.0 5G Investment and Subscription Forecast
9.1 Global 5G R&D and Trial Investments
9.1.1 5G Investment by Category
9.2 LTE Advanced and 5G Subscriptions 2019 – 2030
9.3 5G Only Subscription 2019 – 2030
9.3.1 5G Only Subscriptions by Regions 2019 – 2030
9.4 Mobile Operators’ 5G Expectation
9.4.1 Network Level Expectation
9.4.2 Spectrum Usage Expectation
9.4.3 Service Level Expectation
9.4.4 5G Development by Regions
9.4.5 5G Commercial Launching
9.5 Data Traffic, Video, and Download Speed Projection 2020 – 2030
9.6 5G Investment Case Analysis
9.6.1 European Commission
9.6.2 Huawei
9.6.3 South Korea
9.6.4 ZTE
9.6.5 Horizon 2020
9.7 Quantum Technology and 6G Investment Analysis
10.0 5G Implications for Telecom Industry
10.1 Spectrum and Coverage Implications
10.2 One Millisecond Latency
10.3 Business Opportunities
11.0 Conclusions and Recommendations
11.1 End-To-End Ecosystem
11.2 5G Considerations
11.2.1 5G Arrival Depends on Specifications and Adoption
11.2.2 New Ran will Improve Mobile Networks
11.2.3 Immediate Technological Developments
11.2.4 LTE May Slow Down 5G Growth
11.2.5 Use of Governmental Interest and Resources
11.2.6 More Sustainable Operator Investment Model in Terms of Capacity
11.3 5G Value Creation
11.3.1 Consumers
11.3.2 Enterprises
11.3.3 Verticals
11.3.4 3rd Party Partners
11.4 Recommendation for Value Chain Partners
11.4.1 Disruptive Network Architecture
11.4.2 Access
11.4.3 System Level Principles
11.4.4 Right Business Model
11.4.5 Stakeholder Community
11.4.6 Policy And Standardization Framework
List of Figures
Figure 1: Core Differences between 5G and 4G
Figure 2: Sample Specifications for 5G
Figure 3: Conceptual 5G Mobile Device
Figure 4: Mobile Terminal Network Layer in 5G Networks
Figure 5: 5G Timeline 2008 – 2021
Figure 6: 5G Challenges: Mobile SoC Performance vs. Energy Efficiency
Figure 7: 5G Technological Components
Figure 8: Massive MIMO Concept
Figure 9: NFV in H-RAN Solution
Figure 10: SDN Architecture
Figure 11: SDN Supporting Layers
Figure 12 Self-Organizing Networks in H-RAN
Figure 13: H-RAN Application of 5G Systems
Figure 14: Centralized and Distribution LS-CSSP in H-CRANs
Figure 15: Software Defined Radio Network
Figure 16: Hybrid Architecture of SDN and SDR in 5G Network
Figure 17: Role of Satellite in 5G Communication System
Figure 18: METIS Regulatory Consortium
Figure 19: METIS Regulatory Framework
Figure 20: 5G Service Application Areas
Figure 21: Potential 5G Service Chart and Bandwidth and Latency Requirement
Figure 22: New Service Capabilities in 5G Environment
Figure 23: 5G Disruptive Capabilities
Figure 24: Performance Indicators of Disruptive Capabilities in 5G Network
Figure 25: 5G Network Design Architecture and Service Division
Figure 26: 5G Business Models
Figure 27: Key 5G Initiatives and Development Timeline
Figure 28: 5G Exploration to Development Phases
Figure 29: 5G Standardization Roadmap 2019 – 2024
Figure 30: 3GPP 5G Timeline
Figure 31: METIS HTs Structure
Figure 32: METIS WPs Structure
Figure 33: National 5G Project Phases
Figure 34: 5G Project Promotional Framework
Figure 35: Ericsson 5G Collaboration
Figure 36: Ericsson 5G Strategy Chart
Figure 37: Ericsson 5G Vision for Broadband
Figure 38: Ericsson 5G Vision for Smart Transport and Infrastructure
Figure 39: Ericsson 5G Vision for Media
Figure 40: Ericsson 5G Vision for Remote Devices
Figure 41: Ericsson 5G Vision for IoT
Figure 42: Alcatel-Lucent 5G Timeline
Figure 43: Alcatel-Lucent 5G Programmable Networking Framework
Figure 44: Alcatel-Lucent 5G Solutions
Figure 45: Fujitsu 5G Network Configurations and WLAN
Figure 46: Huawei 5G Service and Scenario Vision
Figure 47: Huawei 5G All-spectrum access RAN
Figure 48: Intel 5G Vision
Figure 49: NEC 5G Vision
Figure 50: NEC’s Virtualization of Cell Concept
Figure 51: Architecture of Massive-Element Antenna
Figure 52: Samsung’s 5G Service Vision
Figure 53: Samsung Rainbow Requirements
Figure 54: Samsung’s FD-MIMO Concept
Figure 55: Samsung’s Reconfigurable 5G Phased-array Antenna
Figure 56: Samsung’s 5G Timeline
Figure 57: Samsung’s 5G Trials
Figure 58: ZTE’s Three Dimensional 5G Vision
Figure 59: Qualcomm 5G Scalability Chart
Figure 60: Qualcomm 5G Connectivity Design
Figure 61: Qualcomm Unified Platform Dimensions
Figure 62: Qualcomm 5G Timeline
Figure 63: Qualcomm 5G Business Model
Figure 64: Qualcomm Model to Leverage 4G Investment
Figure 65: Nokia 5G Vision and Requirements
Figure 66: Nokia 5G Network Design of Functional Requirement
Figure 67: NTT DoCoMo 5G Experimental Trial
Figure 68: Global 5G Investment (R&D and Trial)
Figure 69: 5G Investments (Large Scale, Lab R&D, Test Bed)
Figure 70: Global LTE Advance and 5G Subscriptions
Figure 71: Global 5G Only Subscriptions
Figure 72: Latency Comparison between LTE and 5G
Figure 73: End to End 5G Ecosystem
Figure 74: Total Global Mobile Operator 4G CAPEX Forecast
Figure 75: 5G Value Creation Capabilities
List of Tables
Table 1: OSl Layers by Category
Table 2: 5G Spectrum Band Options, Merits and Licenses
Table 3: MTC features in 3GPP Standard
Table 4: Roadmap for 5G Requirements
Table 5: Roadmap for 5G Wireless Subsystem
Table 6: Roadmap for Virtualization and Software Networks
Table 7: Roadmap for Converged Connectivity
Table 8: 5G PPP 19 Projects
Table 9: 5G Only Subscription APAC vs. NA vs. Europe vs. Others
Table 10: Mobile Operators’ 5G Expectations
Table 11: Mobile Operators’ Expectations of 5G Spectrum
Table 12: Mobile Operators’ Expectation of 5G Service Levels
Table 13: Mobile Operators’ Expectations of 5G Deployment by Region
Table 14: Mobile Operators’ 5G Commercial Launch Expectations
Evolution of LTE and 5G Technologies and Capabilities
1 Introduction
1.1 5G Technologies
1.2 Mobile Spectrum Evolution
1.2.1 1G – 2G – 3G – 4G
1.2.2 4G – 4.5G – 4.5G Pro – 4.9G – 5G
1.3 5G Spectrum Options and Utilization via Low Bands, Mid Bands, and High Bands
1.4 5G Ecosystem Architecture and Planning
1.5 5G Ecosystem Planning: Societal vs. Technology Considerations
2 5G Technology: Network Planning, Implementation, and Applications
2.1 5G Network Planning and Strategic Consideration
2.1.1 LTE Foundation, Device Ecosystem, LAA, and 5G Readiness
2.1.2 Spectrum Sharing and Utilization
2.1.3 Narrowband 5G for Massive IoT
2.1.4 Multi Connectivity Architecture with Small Cell Deployment
2.1.5 Relevance of Mobile IoT Technology: NB-IoT and eMTC
2.1.6 OSS/BSS Architecture for 5G Service Operation
2.1.7 Multi-Antenna and Beamforming Impact
2.1.8 End to End Network Slicing with NFV and SDN
2.1.9 LTE Continuation in 5G Era
2.1.10 Service Design, ROI and 5G Network
2.2 5G Technology Requirement and Network Impact
2.2.1 Network Coverage and Efficiency
2.2.2 Network Spectrum Efficiency
2.2.3 Data Throughput
2.2.4 Connection Density
2.2.5 UR-LLC (Ultra-Reliable Low Latency Communication)
2.2.6 Network Energy Usage
2.2.7 Improved Battery Life
2.2.8 Improved Flexibility in Air Interface and Versatility
2.2.9 Massive MIMO
2.2.10 mmWave Technology
2.2.11 Integration of Access and Backhaul
2.2.12 D2D Communication
2.2.13 Flexible Duplex: FDD and TDD
2.2.14 Multi-Antenna Transmission Scenario
2.2.15 Decoupling User Data from Control System
2.3 5G Technology and Network Architecture
2.3.1 Massive MIMO and Beamforming
2.3.2 Cloud RAN
2.3.3 Broadband Spectrum and Satellite
2.3.4 5G New Radio
2.3.5 Software Defined Air Interface
2.3.6 Network Function Virtualization
2.3.7 Self Organizing Network and Self-Healing Network
2.3.8 HetNet and H-CRAN
2.3.9 Large-Scale Cooperative Spatial Signal Processing
2.3.10 Software Defined Radio
2.3.11 Visible Light Communications
2.3.12 Cross Layer Controller
2.3.13 Cognitive Radios and Transmission Technologies
2.3.14 Scalable OFDM and Subcarrier Spacing
2.4 5G Network Implementation
2.4.1 Base Stations
2.4.2 Small Cells
2.4.3 Macro Cells
2.4.4 Baseband Units and RF Units
2.4.5 Mobile Core
2.4.6 Remote Radio Heads
2.4.7 Front-haul and Backhaul Networks
2.5 Strategic Relevance of 4.5G, 4.5G Pro, and 4.9G
2.5.1 Mobile IoT and M2M Communication
2.5.2 Broadcast Services and Immersive Entertainment
2.5.3 Vehicular Communication
2.5.4 Public Safety Network
2.5.5 Smart City Applications
2.5.6 Private Enterprise Network
3 5G Initiatives, R&D, and Field Trials
3.1 5G Strategic Initiatives in Region
3.1.1 Asia
3.1.1.1 China
3.1.1.1.1 IMT-2020 Promotion Group
3.1.1.1.2 China National Key Project on 5G
3.1.1.2 South Korea
3.1.1.3 Japan
3.1.2 Europe
3.1.2.1 European Union Framework Project 7 (FP7)
3.1.2.2 European Union Framework Project 8 (FP8) /Horizon 2020
3.1.2.3 Celtic Plus
3.1.2.4 EIT and Other projects
3.1.3 America
3.2 5G Standardization Initiative and Development
3.2.1 3GPP
3.2.2 5G Americas
3.2.3 ATIS
3.2.4 GSMA
3.2.5 IEEE
3.2.6 ITU
3.2.7 NGMN
3.2.8 TIA
3.2.9 FCC TAC
3.3 5G Trial by Mobile Operators
3.4 5G Spectrum Aspects
3.4.1 WRC 15 & 19
3.4.2 FCC
3.4.3 5G Americas
3.4.4 CITEL
3.4.5 ITU
3.4.6 GSMA
3.4.7 GSA
4 Conclusions and Recommendations5 Appendix: Supporting Technologies
List of Figures
Figure 1: 5G Network Features and Underlying Benefits
Figure 2: 4G Spectrum Evolution: 1G – 2G – 3G – 4G
Figure 3: 5G Spectrum Evolution: 4G – 4.5G – 4.5G Pro – 4.9G – 5G
Figure 4: 5G Ecosystem Architecture Components
Figure 5: LTE Foundation Architecture: LTE Advanced and LTE Advanced Pro 3
Figure 6: Licensed Assisted Access (LAA) Uplink Cell Range in Small Cells
Figure 7: Architecture of Shared Spectrum
Figure 8: Spectrum Sharing Prototype on LTE-U/LAA, LWA, CBRS/LSA and MultiFire
Figure 9: Narrowband 5G Path and Standard Release for Massive IoT 42
Figure 10: Multi-Connectivity Structure deployed over Small Cell and Macro
Figure 11: Next Generation OSS/BSS Architecture
Figure 12: Massive Element Antenna in Combination of Phantom Cell and Massive MIMO
Figure 13: Multiple Antenna and Beamforming Impact
Figure 14: Bandwidth and Latency Requirements for 5G Use Cases
Figure 15: WRC 15 and WRC 19 Spectrum Issues in 5G Network
Figure 16: IMT 2020 Requirements for URLLC
Figure 17: Flexible Unified Radio Interface for TTI, Integrated Sub-frame, and Dynamic Uplink and Downlink
Figure 18: Massive MIMO Concept
Figure 19: Massive MIMO: LTE Network to 5G NR Rel. 15
Figure 20: High Spectrum Band at Massive MIMO
Figure 21: Cloud RAN Architecture
Figure 22: Role of Satellite in 5G Communication System
Figure 23: 5G New Radio Release Timeline
Figure 24: Technology Requirements of 5G NR Standards
Figure 25: Enabling Technology of 5G NR
Figure 26: Mobile Broadband Performance Target in 5G NR
Figure 27: Virtual Cell and UE Centric Mobility in 5G NR
Figure 28: Self-Contained Sub-Frame Design Structure
Figure 29: NFV in H-RAN Solution
Figure 30: Self-Organizing Networks in H-RAN
Figure 31: H-RAN Application in 5G Systems
Figure 32: Centralized LS-CSSP Structure
Figure 33: Hybrid Architecture of SDN and SDR in 5G Network
Figure 34: Windowed OFDM Structure
Figure 35: Subcarrier Spacing Bandwidth Structure using FDD & TDD
Figure 36: Mobile IoT Technology and Equipment Categories over 4G and 4.5G
Figure 37: SDL Carrier over LTE Broadcast Service
Figure 38: Multi-Carrier Deployment with LTE Broadcast Carrier
Figure 39: Public Safety Scenario over LTE Network
Figure 40: IMT-2020 Timeline and Process
Figure 41: Requirements of IMT-2020
Figure 42: 3GPP SMARTER Service Dimensions
Figure 43: 3GPP Planned Release Timeline and Technical Specification
Figure 44: IMT-2020 Standardization Timeline
Figure 45: NGMN 5G Initiative Timeline 1
List of Tables
Table 1: Comparison of 5G Spectrum Bands: Low vs. Mid vs. High Bands
Table 2: Components and Functions of OSS & BSS
Table 3: 5G Objectives, Targets, and Technology Efforts
Table 4: European Union FP7 5G Projects
Table 5: 5G-PPP Projects Call-1 131
Table 6: 5GrEEn and 5GIC Projects in EU
Table 7: 5G Project Initiatives in United States
Table 8: Mobile Operators Conducting 5G Trials
Network Slicing Capabilities and Market1 Executive Summary
2 Introduction
2.1 Network Slicing
2.2 Enabling Technologies
2.2.1 Software Defined Networks
2.2.2 Network Function Virtualization
2.2.3 SDN and NFV Synergies for 5G Service Classes
3 5G Network Slicing Market Analysis and Forecasts
3.1 Global Market Forecast 2019 – 2024
3.1.1 Total 5G Network Slicing Market
3.1.2 5G Network Slicing Market by Segment
3.1.2.1 5G Network Slicing Technology Market
3.1.2.2 5G Network Slicing RF Components Market
3.1.2.3 5G Network Slicing Service Market
3.1.2.3.1 5G Network Slicing Professional Service Market
3.1.2.3.2 5G Network Slicing Network Management Service Market
3.1.2.3.3 5G Network Slicing QoE Service Market by Clients
3.1.2.3.4 5G Network Slicing Management Service Market
3.1.2.3.5 5G Network Slicing Life Cycle Management Service Market
3.1.2.3.6 5G Network Slicing Configuration Management Service Market
3.1.2.3.7 5G Network Slicing Performance Management Service Market
3.1.2.3.8 5G Network Slicing SLA Service Clients Market
3.1.2.3.9 5G Network Slicing Network Orchestration Service Market
3.1.3 5G Network Slicing Market by RF Spectrum Bands
3.1.4 5G Network Slicing Application Market
3.1.4.1 5G Network Slicing Consumer IoT Application Market
3.1.4.2 5G Network Slicing Enterprise/Industrial IoT Application Market
3.1.4.2.1 5G Network Slicing Smart Manufacturing Application Market
3.1.5 5G Network Slicing Market by Industry Vertical
3.2 Regional Market Forecast 2019 – 2024
3.2.1 5G Network Slicing Market by Region
3.2.2 North America 5G Network Slicing Market
3.2.2.1 North America Market by Segment, RF Bands, Application Sector, and Industry Vertical
3.2.2.2 North America Market by Country
3.2.3 Europe 5G Network Slicing Market
3.2.3.1 Europe Market by Segment, RF Bands, Application Sector, and Industry Vertical
3.2.3.2 Europe Market by Country
3.2.4 APAC 5G Network Slicing Market
3.2.4.1 APAC Market by Segment, RF Bands, Application Sector, and Industry Vertical
3.2.4.2 APAC Market by Country
3.2.5 ME&A 5G Network Slicing Market
3.2.5.1 ME&A Market by Segment, RF Bands, Application Sector, and Industry Vertical
3.2.5.2 ME&A Market by Country
3.2.6 Latin America 5G Network Slicing Market
3.2.6.1 Latin America Market by Segment, RF Bands, Application Sector, and Industry Vertical
3.2.6.2 Latin America Market by Country
4 Conclusions and Recommendations
List of Figures
Figure 1: Network Slicing Model
Figure 2: Software Defined Network Architecture
Figure 3: Network Function Virtualization Options
Figure 4: Global 5G Network Slicing Market 2019 – 2024
Figure 5: 5G Network Slicing Market Yearly Growth
Figure 6: Market Share: 5G Network Slicing Market by Region
Figure 7: Market Share: 5G Network Slicing Market by North America Country
Figure 8: Market Share: 5G Network Slicing Market by Europe Country
Figure 9: Market Share: 5G Network Slicing Market by ME&A Country
Figure 10: Market Share: 5G Network Slicing Market by Latin America Country
List of Tables
Table 1: Global 5G Network Slicing Market by Segment 2019 – 2024
Table 2: Market Share: 5G Network Slicing Market by Segment
Table 3: Global 5G Network Slicing Market by Technology Solution Type 2019 – 2024
Table 4: Market Share: 5G Network Slicing Market by Technology Solution
Table 5: Global 5G Network Slicing Market by RF Components Type 2019 – 2024
Table 6: Market Share: 5G Network Slicing Market by Technology Solution
Table 7: Global 5G Network Slicing Market by Service Type 2019 – 2024
Table 8: Market Share: 5G Network Slicing Market by Managed vs. Professional Service
Table 9: Global 5G Network Slicing Market by Professional Service Type 2019 – 2024
Table 10: Market Share: 5G Network Slicing Market by Professional Service Type
Table 11: Global 5G Network Slicing Service Market by Network Management Type 2019 – 2024
Table 12: Market Share: 5G Network Slicing Service Market by Network Management
Table 13: Global 5G Network Slicing QoE Service Market by Clients 2019 – 2024
Table 14: Market Share: 5G Network Slicing QoE Client Service Market
Table 15: Global 5G Network Slicing Service Market by Slicing Management Type 2019 – 2024
Table 16: Market Share: 5G Network Slicing Management Service Market
Table 17: Global 5G Network Slicing Service Market by Network Slice Life Cycle Management Type 2019 – 2024
Table 18: Market Share: 5G Network Slicing Life Cycle Management Service Market
Table 19: Global 5G Network Slicing Service Market by Configuration Management Type 2019 – 2024
Table 20: Market Share: 5G Network Slicing Configuration Management Service Market
Table 21: Global 5G Network Slicing Service Market by Performance Management Type 2019 – 2024
Table 22: Market Share: 5G Network Slicing Performance Management Service Market
Table 23: Global 5G Network Slicing Service Market by SLA Clients 2019 – 2024
Table 24: Market Share: 5G Network Slicing SLA Service Clients Market
Table 25: Global 5G Network Slicing Service Market by Network Orchestration Type 2019 – 2024
Table 26: Market Share: 5G Network Slicing Network Orchestration Service Market
Table 27: Global 5G Network Slicing Market by RF Spectrum Bands 2019 – 2024
Table 28: Market Share: 5G Network Slicing Market by RF Spectrum Bands
Table 29: Global 5G Network Slicing Market by Application Sector 2019 – 2024
Table 30: Market Share: 5G Network Slicing Application Market
Table 31: Global 5G Network Slicing Market by Consumer IoT Application Type 2019 – 2024
Table 32: Market Share: 5G Network Slicing Consumer IoT Application Market
Table 33: Global 5G Network Slicing Market by Enterprise/Industrial IoT Application Type 2019 – 2024
Table 34: Market Share: 5G Network Slicing Enterprise/Industrial IoT Application Market
Table 35: Global 5G Network Slicing Market by Smart Manufacturing Application Type 2019 – 2024
Table 36: Market Share: 5G Network Slicing Smart Manufacturing Application Market
Table 37: Global 5G Network Slicing Market by Industry Vertical 2019 – 2024
Table 38: Market Share: 5G Network Slicing Market by Industry Vertical
Table 39: 5G Network Slicing Market by Region 2019 – 2024
Table 40: North America 5G Network Slicing Market by Segment 2019 – 2024
Table 41: North America 5G Network Slicing Market by Technology Solution Type 2019 – 2024
Table 42: North America 5G Network Slicing Market by RF Components Type 2019 – 2024
Table 43: North America 5G Network Slicing Market by Service Type 2019 – 2024
Table 44: North America 5G Network Slicing Market by Professional Service Type 2019 – 2024
Table 45: North America 5G Network Slicing Service Market by Network Management Type 2019 – 2024
Table 46: North America 5G Network Slicing QoE Service Market by Clients 2019 – 2024
Table 47: North America 5G Network Slicing Service Market by Slicing Management Type 2019 – 2024
Table 48: North America 5G Network Slicing Service Market by Network Slice Life Cycle Management Type 2019 – 2024
Table 49: North America 5G Network Slicing Service Market by Configuration Management Type 2019 – 2024
Table 50: North America 5G Network Slicing Service Market by Performance Management Type 2019 – 2024
Table 51: North America 5G Network Slicing Service Market by SLA Clients 2019 – 2024
Table 52: North America 5G Network Slicing Service Market by Network Orchestration Type 2019 – 2024
Table 53: North America 5G Network Slicing Market by RF Spectrum Bands 2019 – 2024
Table 54: North America 5G Network Slicing Market by Application Sector 2019 – 2024
Table 55: North America 5G Network Slicing Market by Consumer IoT Application Type 2019 – 2024
Table 56: North America 5G Network Slicing Market by Enterprise/Industrial IoT Application Type 2019 – 2024
Table 57: North America 5G Network Slicing Market by Smart Manufacturing Application Type 2019 – 2024
Table 58: North America 5G Network Slicing Market by Industry Vertical 2019 – 2024
Table 59: North America 5G Network Slicing Market by Country 2019 – 2024
Table 60: Europe 5G Network Slicing Market by Segment 2019 – 2024
Table 61: Europe 5G Network Slicing Market by Technology Solution Type 2019 – 2024
Table 62: Europe 5G Network Slicing Market by RF Components Type 2019 – 2024
Table 63: Europe 5G Network Slicing Market by Service Type 2019 – 2024
Table 64: Europe 5G Network Slicing Market by Professional Service Type 2019 – 2024
Table 65: Europe 5G Network Slicing Service Market by Network Management Type 2019 – 2024
Table 66: Europe 5G Network Slicing QoE Service Market by Clients 2019 – 2024
Table 67: Europe 5G Network Slicing Service Market by Slicing Management Type 2019 – 2024
Table 68: Europe 5G Network Slicing Service Market by Network Slice Life Cycle Management Type 2019 – 2024
Table 69: Europe 5G Network Slicing Service Market by Configuration Management Type 2019 – 2024
Table 70: Europe 5G Network Slicing Service Market by Performance Management Type 2019 – 2024
Table 71: Europe 5G Network Slicing Service Market by SLA Clients 2019 – 2024
Table 72: Europe 5G Network Slicing Service Market by Network Orchestration Type 2019 – 2024
Table 73: Europe 5G Network Slicing Market by RF Spectrum Bands 2019 – 2024
Table 74: Europe 5G Network Slicing Market by Application Sector 2019 – 2024
Table 75: Europe 5G Network Slicing Market by Consumer IoT Application Type 2019 – 2024
Table 76: Europe 5G Network Slicing Market by Enterprise/Industrial IoT Application Type 2019 – 2024
Table 77: Europe 5G Network Slicing Market by Smart Manufacturing Application Type 2019 – 2024
Table 78: Europe 5G Network Slicing Market by Industry Vertical 2019 – 2024
Table 79: Europe 5G Network Slicing Market by Country 2019 – 2024
Table 80: APAC 5G Network Slicing Market by Segment 2019 – 2024
Table 81: APAC 5G Network Slicing Market by Technology Solution Type 2019 – 2024
Table 82: APAC 5G Network Slicing Market by RF Components Type 2019 – 2024
Table 83: APAC 5G Network Slicing Market by Service Type 2019 – 2024
Table 84: APAC 5G Network Slicing Market by Professional Service Type 2019 – 2024
Table 85: APAC 5G Network Slicing Service Market by Network Management Type 2019 – 2024
Table 86: APAC 5G Network Slicing QoE Service Market by Clients 2019 – 2024
Table 87: APAC 5G Network Slicing Service Market by Slicing Management Type 2019 – 2024
Table 88: APAC 5G Network Slicing Service Market by Network Slice Life Cycle Management Type 2019 – 2024
Table 89: APAC 5G Network Slicing Service Market by Configuration Management Type 2019 – 2024
Table 90: APAC 5G Network Slicing Service Market by Performance Management Type 2019 – 2024
Table 91: APAC 5G Network Slicing Service Market by SLA Clients 2019 – 2024
Table 92: APAC 5G Network Slicing Service Market by Network Orchestration Type 2019 – 2024
Table 93: APAC 5G Network Slicing Market by RF Spectrum Bands 2019 – 2024
Table 94: APAC 5G Network Slicing Market by Application Sector 2019 – 2024
Table 95: APAC 5G Network Slicing Market by Consumer IoT Application Type 2019 – 2024
Table 96: APAC 5G Network Slicing Market by Enterprise/Industrial IoT Application Type 2019 – 2024
Table 97: APAC 5G Network Slicing Market by Smart Manufacturing Application Type 2019 – 2024
Table 98: APAC 5G Network Slicing Market by Industry Vertical 2019 – 2024
Table 99: APAC 5G Network Slicing Market by Country 2019 – 2024
Table 100: Market Share: 5G Network Slicing Market by APAC Country
Table 101: ME&A 5G Network Slicing Market by Segment 2019 – 2024
Table 102: ME&A 5G Network Slicing Market by Technology Solution Type 2019 – 2024
Table 103: ME&A 5G Network Slicing Market by RF Components Type 2019 – 2024
Table 104: ME&A 5G Network Slicing Market by Service Type 2019 – 2024
Table 105: ME&A 5G Network Slicing Market by Professional Service Type 2019 – 2024
Table 106: ME&A 5G Network Slicing Service Market by Network Management Type 2019 – 2024
Table 107: ME&A 5G Network Slicing QoE Service Market by Clients 2019 – 2024
Table 108: ME&A 5G Network Slicing Service Market by Slicing Management Type 2019 – 2024
Table 109: ME&A 5G Network Slicing Service Market by Network Slice Life Cycle Management Type 2019 – 2024
Table 110: ME&A 5G Network Slicing Service Market by Configuration Management Type 2019 – 2024
Table 111: ME&A 5G Network Slicing Service Market by Performance Management Type 2019 – 2024
Table 112: ME&A 5G Network Slicing Service Market by SLA Clients 2019 – 2024
Table 113: ME&A 5G Network Slicing Service Market by Network Orchestration Type 2019 – 2024
Table 114: ME&A 5G Network Slicing Market by RF Spectrum Bands 2019 – 2024
Table 115: ME&A 5G Network Slicing Market by Application Sector 2019 – 2024
Table 116: ME&A 5G Network Slicing Market by Consumer IoT Application Type 2019 – 2024
Table 117: ME&A 5G Network Slicing Market by Enterprise/Industrial IoT Application Type 2019 – 2024
Table 118: ME&A 5G Network Slicing Market by Smart Manufacturing Application Type 2019 – 2024
Table 119: ME&A 5G Network Slicing Market by Industry Vertical 2019 – 2024
Table 120: ME&A 5G Network Slicing Market by Country 2019 – 2024
Table 121: Latin America 5G Network Slicing Market by Segment 2019 – 2024
Table 122: Latin America 5G Network Slicing Market by Technology Solution Type 2019 – 2024
Table 123: Latin America 5G Network Slicing Market by RF Components Type 2019 – 2024
Table 124: Latin America 5G Network Slicing Market by Service Type 2019 – 2024
Table 125: Latin America 5G Network Slicing Market by Professional Service Type 2019 – 2024
Table 126: Latin America 5G Network Slicing Service Market by Network Management Type 2019 – 2024
Table 127: Latin America 5G Network Slicing QoE Service Market by Clients 2019 – 2024
Table 128: Latin America 5G Network Slicing Service Market by Slicing Management Type 2019 – 2024
Table 129: Latin America 5G Network Slicing Service Market by Network Slice Life Cycle Management Type 2019 – 2024
Table 130: Latin America 5G Network Slicing Service Market by Configuration Management Type 2019 – 2024
Table 131: Latin America 5G Network Slicing Service Market by Performance Management Type 2019 – 2024
Table 132: Latin America 5G Network Slicing Service Market by SLA Clients 2019 – 2024
Table 133: Latin America 5G Network Slicing Service Market by Network Orchestration Type 2019 – 2024
Table 134: Latin America 5G Network Slicing Market by RF Spectrum Bands 2019 – 2024
Table 135: Latin America 5G Network Slicing Market by Application Sector 2019 – 2024
Table 136: Latin America 5G Network Slicing Market by Consumer IoT Application Type 2019 – 2024
Table 137: Latin America 5G Network Slicing Market by Enterprise/Industrial IoT Application Type 2019 – 2024
Table 138: Latin America 5G Network Slicing Market by Smart Manufacturing Application Type 2019 – 2024
Table 139: Latin America 5G Network Slicing Market by Industry Vertical 2019 – 2024
Table 140: Latin America 5G Network Slicing Market by Country 2019 – 2024
Multi-access Edge Computing in 5G Networks1 Executive Summary
2 Introduction
2.1 Understanding Multi-access Edge Computing
2.1.1 Edge Computing in an ICT Context
2.1.2 Proximity Computing: The Edge in Physical and Logical Context
2.1.3 Edge Computing vs. Other Computational Approaches
2.1.4 Multi-access Edge Computing
2.2 Important Characteristics of MEC
2.2.1 Processing at the Edge
2.2.2 Low Latency
2.2.3 Context Based
2.2.4 Location and Analytics
2.3 MEC Benefits
2.3.1 Business Benefits
2.3.2 Technical Benefits
2.3.3 Mobile Network Operator Benefits
2.3.4 Key Element of Carrier Heterogeneous Network Strategy
3 MEC Technology, Platforms, and Architecture
3.1 MEC Platform Architecture Building Blocks
3.1.1 MEC Infrastructure
3.1.2 MEC Application Platforms
3.1.3 MEC Management Framework
3.2 The Edge Cloud Computing Value Chain
3.3 MEC Technology Building Blocks
3.3.1 Radio Network Information Service
3.3.2 Traffic Offload Function
3.3.3 MEC Interfaces
3.3.4 Configuration Management
3.3.5 Application Lifecycle Management
3.3.6 VM Operations and Management
3.3.7 Hardware Virtualization and Infrastructure Management
3.3.8 Core Network Elements
3.3.9 Open Standards
3.4 MEC Technology Enablers
3.4.1 Mobile Computing to Mobile Cloud Computing
3.4.2 Cloudlet based Mobile Cloud Computing
3.4.3 Cloudlet to Cloud
3.4.4 PacketCloud Open Platform for Cloudlets
3.4.5 Enterprise Cloud Architecture
3.4.6 Cloudlet Solutions
3.4.7 Cloudlet Storage Frameworks
3.5 MEC Deployment Considerations
3.5.1 MEC Implementation Challenges
3.5.2 MEC Operational Challenges
4 MEC Market Drivers and Opportunities
4.1 Limitations of Cloud Convergence
4.2 IT and Telecom Network Convergence
4.3 Base Station Evolution
4.4 Cell Aggregation
4.5 Virtualization in the Cloud
4.6 Continually Improving Server Capacity
4.7 Data Center to Network Interactions
4.8 Open and Flexible App and Service Ecosystem
4.9 Fifth Generation (5G) Wireless
4.10 Edge Cloud and Data Transferability
4.11 Proximate Cloud Computing
4.12 Increasingly Faster Content Delivery
4.13 Advantages of MEC Small Cell Deployment
4.14 Overall Mobile Data Demand
4.15 Low Latency Applications
4.16 Integration of MEC with Cloud RAN
4.17 MEC Enhances Real-time Data and Analytics
4.17.1 Why Data at the Edge?
4.17.2 Convergence of Distributed Cloud and Big Data
5 MEC Ecosystem
5.1 The Overall Edge Computing Ecosystem
5.2 MEC Ecosystem Players
5.2.1 ETSI MEC ISG
5.2.2 Software and ASPs
5.2.3 OTT Service and Content Providers
5.2.4 Network Infrastructure and Equipment Providers
5.2.5 Mobile Network Operators
5.3 Individual Company Analysis
5.3.1 ADLINK Technology Inc.
5.3.2 Advantech
5.3.3 Akamai Technologies
5.3.4 Allot Communications
5.3.5 Advanced Micro Devices
5.3.6 Brocade Communications Systems
5.3.7 Cavium Networks
5.3.8 Ceragon Networks
5.3.9 Cisco Systems
5.3.10 Fujitsu Technology Solutions
5.3.11 Hewlett Packard Enterprise
5.3.12 Huawei Technologies Co. Ltd
5.3.13 IBM Corporation
5.3.14 Integrated Device Technology
5.3.15 Intel Corporation
5.3.16 InterDigital Inc.
5.3.17 Juniper Networks
5.3.18 NEC Corporation
5.3.19 Nokia Corporation
5.3.20 PeerApp Ltd.
5.3.21 Quortus
5.3.22 Redhat, Inc.
5.3.23 Saguna Networks
5.3.24 Samsung Electronics Co., Ltd
5.3.25 Sony Corporation
5.3.26 SpiderCloud Wireless
5.3.27 Vasona Networks
5.3.28 Xilinx, Inc.
5.3.29 Yaana Ltd.
5.3.30 ZTE Corporation
6 MEC Application and Service Strategies
6.1 Optimizing the Mobile Cloud
6.1.1 Mobile Network Operator Strategies
6.1.2 Service Strategies and End-user Demand
6.2 Context Aware Services
6.2.1 Commerce
6.2.2 Education
6.2.3 Gaming
6.2.4 Healthcare
6.2.5 Location-based Services
6.2.6 Public Safety
6.2.7 Connected Vehicles
6.2.8 Wearables
6.1 Data Services and Analytics
6.1.1 Localized Real-time Data Becomes King
6.1.2 Anonymizing Local and Real-time Data for Third-party Usage
6.1.3 Increasing Demand for Data as a Service in MEC Environment
7 MEC Market Forecasts 2019 – 2024
7.1 Global Market 2019 – 2024
7.1.1 Combined MEC Market
7.1.2 MEC Market by Segment
7.1.2.1 MEC Cloud Server Market
7.1.2.2 MEC Equipment Market
7.1.2.3 MEC Platform Market
7.1.2.4 MEC Software and API Market
7.1.2.5 MEC Service Market
7.1.3 MEC Enterprise CAPEX and OPEX Spend
7.1.4 MEC Network Migration
7.1.5 MEC Enterprise Adoption
7.2 MEC Regional Market 2019 – 2024
7.2.1 North America Market Forecast
7.2.2 APAC Market Forecasts
7.2.3 Europe Market Forecast
7.3 MEC Network Users/Devices 2019 – 2024
7.3.1 Global MEC Network Users/Devices
7.3.2 MEC Network User by Supporting Network
7.3.3 Regional MEC Network User
7.3.3.1 North America User
7.3.3.2 APAC User
7.3.3.3 Europe User
8 Conclusions and Recommendations
8.1 Anticipated Market Needs and Opportunities
8.1.1 The need for MEC Integration with Public Cloud Platforms
8.1.2 Enterprise (Dedicated and Shared Resources) MEC Integration
8.1.3 Dedicated MEC Public Safety and Homeland Security Infrastructure
8.2 Insights into Future Market Dynamics
8.2.1 MEC will Facilitate Downward Price Pressure on Non-real-time Data
8.2.2 MEC will Drive Demand for Virtual Network Operators
8.2.3 MEC will Drive the Need for New Players as well as M&A
9 Appendix: Real-time Data Analytics Revenue 2019 – 2024
9.1 Global Streaming Data Analytics Revenue
9.2 Global Real-time Data Analytics Revenue by App, Software, and Services
9.3 Global Real-time Data Analytics Revenue in Industry Verticals
9.3.1 Real-time Data Analytics Revenue in Retail
9.3.1.1 Real-time Data Analytics Revenue by Retail Segment
9.3.1.2 Real-time Data Analytics Retail Revenue by App, Software, and Service
9.3.2 Real-time Data Analytics Revenue in Telecom and IT
9.3.2.1 Real-time Data Analytics Revenue by Telecom and IT Segment
9.3.2.2 Real-time Data Analytics Revenue by Telecom and IT App, Software, and Service
9.3.3 Real-time Data Analytics Revenue in Energy and Utility
9.3.3.1 Real-time Data Analytics Revenue by Energy and Utility Segment
9.3.3.2 Real-time Data Analytics Energy and Utilities Revenue by App, Software, and Service
9.3.4 Real-time Data Analytics Revenue in Government
9.3.4.1 Real-time Data Analytics Revenue by Government Segment
9.3.4.2 Real-time Data Analytics Government Revenue by App, Software, and Service
9.3.5 Real-time Data Analytics Revenue in Healthcare and Life Science
9.3.5.1 Real-time Data Analytics Revenue by Healthcare Segment
9.3.6 Real-time Data Analytics Revenue in Manufacturing
9.3.6.1 Real-time Data Analytics Revenue by Manufacturing Segment
9.3.6.2 Real-time Data Analytics Manufacturing Revenue by App, Software, and Service
9.3.7 Real-time Data Analytics Revenue in Transportation and Logistics
9.3.7.1 Real-time Data Analytics Revenue by Transportation and Logistics Segment
9.3.7.2 Real-time Data Analytics Transportation and Logistics Revenue by App, Software, and Service
9.3.8 Real-time Data Analytics Revenue in Banking and Finance
9.3.8.1 Real-time Data Analytics Revenue by Banking and Finance Segment
9.3.8.2 Real-time Data Analytics Revenue by Banking and Finance App, Software, and Service
9.3.9 Real-time Data Analytics Revenue in Smart Cities
9.3.9.1 Real-time Data Analytics Revenue by Smart City Segment
9.3.9.2 Real-time Data Analytics Revenue by Smart City App, Software, and Service
9.3.10 Real-time Data Analytics Revenue in Automotive
9.3.10.1 Real-time Data Analytics Revenue by Automobile Industry Segment
9.3.10.2 Real-time Data Analytics Revenue by Automotive Industry App, Software, and Service
9.3.11 Real-time Data Analytics Revenue in Education
9.3.11.1 Real-time Data Analytics Revenue by Education Industry Segment
9.3.11.2 Real-time Data Analytics Revenue by Education Industry App, Software, and Service
9.3.12 Real-time Data Analytics Revenue in Outsourcing Services
9.3.12.1 Real-time Data Analytics Revenue by Outsourcing Segment
9.3.12.2 Real-time Data Analytics Revenue by Outsourcing Industry App, Software, and Service
9.4 Real-time Data Analytics Revenue by Leading Vendor Platform
9.4.1 Global Investment in Data by Industry Sector 2019 – 2024
List of Figures
Figure 1: MEC Value Chain for Edge Cloud Computing
Figure 2: Extreme Outdoor Server
Figure 3: Cloudlet based PacketCloud Framework
Figure 4: MEC and C-RAN Architecture
Figure 5: Mobile Edge Computing Network
Figure 6: MEC Network and Application Clients
Figure 7: ETSI MEC ISG Members
Figure 8: MEC enables Many Cloud-based Apps
Figure 9: Combined MEC Market Size 2019 – 2024
Figure 10: MEC Network Migration Ratio
Figure 11: MEC Enterprise Adoption Ratio
Figure 12: Global MEC Network Users 2019 – 2024
Figure 13: Global Real-time Data Analytics 2019 – 2024
Figure 14: Investment in Data by Industry Vertical 2019 – 2024
List of Tables
Table 1: MEC Market Size by Market Segment 2019 – 2024
Table 2: MEC Cloud Server Market by Category 2019 – 2024
Table 3: MEC Equipment Market by Category 2019 – 2024
Table 4: MEC Platform Market by Category 2019 – 2024
Table 5: MEC Software and API Market in Vertical Segment 2019 – 2024
Table 6: MEC Service Market by Type 2019 – 2024
Table 7: MEC Optimization CAPEX and OPEX Spend by Enterprise
Table 8: MEC Market by Region 2019 – 2024
Table 9: North America MEC Market by Segment 2019 – 2024
Table 10: North America MEC Cloud Server Market by Category 2019 – 2024
Table 11: North America MEC Equipment Market by Category 2019 – 2024
Table 12: North America MEC Platform Market by Category 2019 – 2024
Table 13: North America MEC Software and API Market in Vertical Segment 2019 – 2024
Table 14: North America MEC Service Market by Type 2019 – 2024
Table 15: North America MEC Market by Country 2019 – 2024
Table 16: APAC MEC Market by Market Segment 2019 – 2024
Table 17: APAC MEC Cloud Server Market by Category 2019 – 2024
Table 18: APAC MEC Equipment Market by Category 2019 – 2024
Table 19: APAC MEC Platform Market by Category 2019 – 2024
Table 20: APAC MEC Software and API Market in Vertical Segment 2019 – 2024
Table 21: APAC MEC Service Market by Type 2019 – 2024
Table 22: APAC MEC Market by Country 2019 – 2024
Table 23: Europe MEC Market by Market Segment 2019 – 2024
Table 24: Europe MEC Cloud Server Market by Category 2019 – 2024
Table 25: Europe MEC Equipment Market by Category 2019 – 2024
Table 26: Europe MEC Platform Market by Category 2019 – 2024
Table 27: Europe MEC Software and API Market in Vertical Segment 2019 – 2024
Table 28: Europe MEC Service Market by Type 2019 – 2024
Table 29: Europe MEC Market by Country 2019 – 2024
Table 30: MEC User by Supporting Network 2019 – 2024
Table 31: MEC Network User by Region 2019 – 2024
Table 32: North America MEC User by Supporting Network 2019 – 2024
Table 33: APAC MEC User by Supporting Network 2019 – 2024
Table 34: Europe MEC User by Supporting Network 2019 – 2024
Table 35: Global Real-time Data Analytics Revenue by App, Software, and Service 2019 – 2024
Table 36: Global Real-time Data Analytics Revenue in Industry Vertical 2019 – 2024
Table 37: Retail Real-time Data Analytics Revenue by Retail Segment 2019 – 2024
Table 38: Retail Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 39: Telecom and IT Real-time Data Analytics Rev by Segment 2019 – 2024
Table 40: Telecom and IT Real-time Data Analytics Rev by App, Software, and Services 2019 – 2024
Table 41: Energy and Utilities Real-time Data Analytics Rev by Segment 2019 – 2024
Table 42: Energy and Utilities Real-time Data Analytics Rev by App, Software, and Services 2019 – 2024
Table 43: Government Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 44: Government Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 45: Healthcare and Life Science Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 46: Healthcare and Life Science Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 47: Manufacturing Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 48: Manufacturing Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 49: Transportation and Logistics Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 50: Transportation and Logistics Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 51: Banking and Finance Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 52: Banking and Finance Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 53: Smart Cities Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 54: Smart Cities Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 55: Automotive Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 56: Automotive Real-time Data Analytics Revenue by Apps, Software, and Services 2019 – 2024
Table 57: Education Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 58: Education Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 59: Outsourcing Service Real-time Data Analytics Revenue by Segment 2019 – 2024
Table 60: Outsourcing Service Real-time Data Analytics Revenue by App, Software, and Services 2019 – 2024
Table 61: Real-time Data Analytics Revenue by Leading Vendor
Intent Based Networking Market: IBN by Technology, Infrastructure, Solutions, Deployment Type, Network and Connection, Organization Type, and Industry Verticals1 Executive Summary
2 Introduction
2.1 Defining Intent Based Networking
2.2 IBN Building Blocks
2.3 Traditional vs. Intent Based Network
2.4 IBN System and Element
2.5 Self Driven Networks
2.6 Augmented Intelligence
2.7 Intent Based Networking Benefits
2.8 Intent Based Network Transition and Enterprise Networking
2.9 IBN to Minimize Gap between Business and IT
2.10 IBN Market Driver and Challenges
3 Intent Based Networking Technology and Market Analysis
3.1 Intent Based Networking Software
3.2 Intent Based Networking Hardware
3.3 Intent Base Network Security
3.4 Intent Based Networking Analytics
3.5 Intent Based Networking Services
3.6 Networking Technology
3.7 Multi Domain Environments
3.8 Declarative Policy Model
3.9 DevOps and Intent Based Network
3.10 Software Defined Networking and SD-WAN
3.11 Software Defined Infrastructure
3.12 AI-Defined Infrastructure
3.13 Network Automation and Optimization
3.14 Intent Based Networking and Datacenters
3.15 AI, Machine Learning and Network Orchestration
3.16 Intent Based Networking Taxonomy
3.17 Intent Based Networking in IoT at the Edge of Networks
3.18 Intent Based Networking and 5G
4 Intent Based Networking Company Analysis
4.1 Market Share Analysis
4.2 Leading Companies
4.2.1 Cisco Systems Inc.
4.2.1.1 Overview
4.2.1.2 Strategic Analysis
4.2.2 Juniper Networks Inc.
4.2.2.1 Overview
4.2.2.2 Strategic Analysis
4.2.3 Huawei Technologies Co. Ltd
4.2.3.1 Overview
4.2.3.2 Strategic Analysis
4.2.4 Pluribus Networks
4.2.4.1 Overview
4.2.4.2 Strategic Analysis
4.2.5 A10 Networks
4.2.5.1 Overview
4.2.5.1.1 Strategic Analysis
4.2.6 FireMon LLC
4.2.6.1 Overview
4.2.6.2 Strategic Analysis
4.2.7 Cerium Networks
4.2.8 Veriflow Systems
4.2.9 Fortinet Inc.
4.2.10 Indeni Ltd.
4.2.11 Forward Networks Inc.
4.2.12 Anuta Networks
4.2.13 Apstra Inc.
4.3 Other Companies
4.3.1 Intentionet
4.3.2 Avi Networks
4.3.3 Google
4.3.4 Amazon Web Services
4.3.5 Microsoft Azure
4.3.6 Masergy
4.3.7 128 Technology
4.3.8 Aviatrix Systems
4.3.9 Barefoot Networks
4.3.10 CloudGenix
4.3.11 Gemini Data
4.3.12 Nyansa
4.3.13 Versa Networks
4.3.14 Noction
4.4 Network Automation Solution Providers
4.5 SDN Solution Providers
5 Intent Based Networking Market Analysis and Forecasts 2019 – 2024
5.1 Total Intent Based Networking Market
5.2 Intent Based Networking Market by Segment
5.2.1 Intent Based Networking Market by Hardware
5.2.1.1 Intent Based Networking Hardware Market by Equipment Type
5.2.1.2 Intent Based Networking Hardware Market by Component Type
5.2.2 Intent Based Networking Market by Software
5.2.2.1 Intent Based Networking Software Market by Delivery Mode
5.2.3 Intent Based Networking Market by Service
5.2.3.1 Intent Based Networking Professional Service Market by Type
5.3 Intent Based Networking Market by Application
5.4 Intent Based Networking Market by Deployment
5.4.1 Intent Based Networking Cloud Deployment Market by Type
5.5 Intent Based Networking Market by Network
5.6 Intent Based Networking Market by Network Type
5.7 Intent Based Networking Market by Network Infrastructure
5.7.1 Intent Based Networking Market by Telecom Infrastructure
5.8 Intent Based Networking Market by AI Technology
5.9 Intent Based Networking Market by Organization
5.10 Intent Based Networking Market by Industry Vertical
5.11 IoT Edge Driven Intent Based Networking Market
5.11.1 IoT Edge Driven Intent Based Networking Market by Segment
5.11.1.1 IoT Edge Driven Intent Based Networking Market by IoT Application
5.11.1.2 IoT Edge Driven Intent Based Networking Market by IoT Service
5.11.1.2.1 IoT Edge Driven Intent Based Networking Market by Professional Service
5.11.2 IoT Edge Driven Intent Based Networking Market by IoT Network
5.11.2.1 IoT Edge Driven Intent Based Networking Market by Short and Medium Range Wireless Network
5.11.2.2 IoT Edge Driven Intent Based Networking Market by Long Range Wireless Network
5.12 Intent Based Networking Analytics (IBNA) Market
5.13 Intent Based Networking Security (IBNS) Market
5.14 Cloud Deployed Intent Based Networking Market
5.15 Intent Based Networking Market in Virtualization
5.16 Intent Based Networking Market in 5G
5.17 Intent Based Networking Market in Autonomous Vehicle
5.18 Intent Based Networking Market in Smart Building
5.19 Intent Based Networking Market in Asset Tracking
5.20 Intent Based Networking Market in Smart Workplace
5.21 Intent Based Networking Market in M2M Network
5.22 Intent Based Networking Market in Smart City
5.23 Intent Based Networking Market in Blockchain Networks
5.24 Intent Based Networking Market by Region
5.24.1 North America Intent Based Networking Market by Leading Country
5.24.2 Europe Intent Based Networking Market by Leading Country
5.24.3 APAC Intent Based Networking Market by Leading Country
5.24.4 MEA Intent Based Networking Market by Leading Country
5.24.5 Latin America Intent Based Networking Market by Leading Country
6 Conclusions and Recommendations
6.1 Advertisers and Media Companies
6.2 Artificial Intelligence Providers
6.3 Automotive Companies
6.4 Broadband Infrastructure Providers
6.5 Communication Service Providers
6.6 Computing Companies
6.7 Data Analytics Providers
6.8 Immersive Technology (AR, VR, and MR) Providers
6.9 Networking Equipment Providers
6.10 Networking Security Providers
6.11 Semiconductor Companies
6.12 IoT Suppliers and Service Providers
6.13 Software Providers
6.14 Smart City System Integrators
6.15 Automation System Providers
6.16 Social Media Companies
6.17 Workplace Solution Providers
6.18 Enterprise and Government
List of Figures
Figure 1: Intent Based Networking (IBN) Architecture
Figure 2: IBN Intent to Analytics Hyper Loop
Figure 3: IBN Security Architecture
Figure 4: IBN Model for Multi Domain Network
Figure 5: IBN Vendor Market Share
Figure 6: Cisco IBN Feedback Model
Figure 7: DNA Centre Diagram for Third Party SDKs
Figure 8: Juniper E2 SDN Controller for IBN
Figure 9: Huawei Intent Based Network Diagram
Figure 10: FireMon IBN Security Framework
Figure 11: Indeni Firewall Protection Model
Figure 12: Anuta ATOM Telemetry Service Diagram
Figure 13: Apstra AOS 2.3 Diagram
Figure 14: Apstra AOS IBN Architecture
Figure 15: Global Consolidated Intent Based Networking Market 2019 – 2024
Figure 16: Global IoT Edge Driven Intent Based Networking Market 2019 – 2024
Figure 17: Global Intent Based Networking Analytics Market 2019 – 2024
Figure 18: Global Intent Based Networking Security Market 2019 – 2024
Figure 19: Global Cloud Deployed Intent Based Networking Market 2019 – 2024
Figure 20: Global Intent Based Networking Market in Virtualization 2019 – 2024
Figure 21: Global Intent Based Networking Market in 5G 2019 – 2024
Figure 22: Global Intent Based Networking Market in Autonomous Vehicle 2019 – 2024
Figure 23: Global Intent Based Networking Market in Smart Building 2019 – 2024
Figure 24: Global Intent Based Networking Market in Asset Tracking 2019 – 2024
Figure 25: Global Intent Based Networking Market in Smart Workplace 2019 – 2024
Figure 26: Global Intent Based Networking Market in M2M Network 2019 – 2024
Figure 27: Global Intent Based Networking Market in Smart City 2019 – 2024
Figure 28: Global Intent Based Networking Market in Blockchain Network 2019 – 2024
List of Tables
Table 1: Global Intent Based Networking Market by Segment 2019 – 2024
Table 2: Global Intent Based Networking Hardware Market by Type 2019 – 2024
Table 3: Global Intent Based Networking Hardware Market by Equipment Type 2019 – 2024
Table 4: Global Intent Based Networking Hardware Market by Component Type 2019 – 2024
Table 5: Global Intent Based Networking Software Market by Type 2019 – 2024
Table 6: Global Intent Based Networking Software Market by Delivery Mode 2019 – 2024
Table 7: Global Intent Based Networking Service Market by Type 2019 – 2024
Table 8: Global Intent Based Networking Service Market by Type 2019 – 2024
Table 9: Global Intent Based Networking Market by Application Type 2019 – 2024
Table 10: Global Intent Based Networking Market by Deployment Type 2019 – 2024
Table 11: Global Intent Based Networking Cloud Deployment Market by Cloud Type 2019 – 2024
Table 12: Global Intent Based Networking Market by Network Type 2019 – 2024
Table 13: Global Intent Based Networking Market by Network Type 2019 – 2024
Table 14: Global Intent Based Networking Market by Network Infrastructure 2019 – 2024
Table 15: Global Intent Based Networking Market by Telecom Infrastructure Type 2019 – 2024
Table 16: Global Intent Based Networking Market by AI Technology 2019 – 2024
Table 17: Global Intent Based Networking Market by Organization Type 2019 – 2024
Table 18: Global Intent Based Networking Market by Industry Vertical 2019 – 2024
Table 19: Global IoT Edge Driven Intent Based Networking Market by Segment 2019 – 2024
Table 20: Global IoT Edge Driven Intent Based Networking Market by IoT Application Type 2019 – 2024
Table 21: Global IoT Edge Driven Intent Based Networking Market by IoT Service Type 2019 – 2024
Table 22: Global IoT Edge Driven Intent Based Networking Market by Professional Service Type 2019 – 2024
Table 23: Global IoT Edge Driven Intent Based Networking Market by IoT Network Type 2019 – 2024
Table 24: Global IoT Edge Driven Intent Based Networking Market by Short and Medium Range Wireless Network Type 2019 – 2024
Table 25: Global IoT Edge Driven Intent Based Networking Market by Long Range Wireless Network Type 2019 – 2024
Table 26: Intent Based Networking Market by Region 2019 – 2024
Table 27: APAC Intent Based Networking Market by Leading Country 2019 – 2024
Table 28: Europe Intent Based Networking Market by Leading Country 2019 – 2024
Table 29: APAC Intent Based Networking Market by Leading Country 2019 – 2024
Table 30: MEA Intent Based Networking Market by Leading Country 2019 – 2024
Table 31: Latin America Intent Based Networking Market by Leading Country 2019 – 2024

Companies Mentioned

  • 128 Technology
  • A10 Networks
  • Advanced Micro Devices
  • Advantech
  • Akamai Technologies
  • Alcatel-Lucent
  • Allot Communications
  • Amazon Web Services
  • Anuta Networks
  • Apstra Inc.
  • Avi Networks
  • Aviatrix Systems
  • Barefoot Networks
  • Broadcom
  • Brocade Communications Systems
  • Cavium Networks
  • Ceragon Networks
  • Cerium Networks
  • China Mobile
  • Cisco Systems
  • CloudGenix
  • Ericsson
  • FireMon LLC
  • Fortinet Inc.
  • Forward Networks Inc.
  • Fujitsu Technology Solutions
  • Gemini Data
  • Google
  • Hewlett Packard Enterprise
  • Huawei Technologies Co. Ltd
  • IBM Corporation
  • Indeni Ltd.
  • Ingenu
  • Integrated Device Technology
  • Intel Corporation
  • Intentionet
  • InterDigital Inc.
  • Juniper Networks
  • LG
  • LoRa
  • Masergy
  • Microsoft Azure
  • NEC Corporation
  • NTT DoCoMo
  • Noction
  • Nokia Corporation
  • Nyansa
  • PeerApp Ltd.
  • Pluribus Networks
  • Qualcomm
  • Quortus
  • Redhat, Inc.
  • SK Telecom
  • Saguna Networks
  • Samsung
  • Samsung Electronics Co., Ltd
  • Sigfox
  • SingTel ADLINK Technology Inc.
  • Sony Corporation
  • SpiderCloud Wireless
  • Turkcell
  • Vasona Networks
  • Veriflow Systems
  • Versa Networks
  • Weightless
  • Xilinx, Inc.
  • Yaana Ltd.
  • ZTE Corporation

Methodology

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