Summary
米国調査会社マインドコマース(Mind Commerce)の調査レポート「5Gインフラストラクチャ市場:5G上の音声通信(Vo5G)とリアルタイム超高精細(UHD)Vo5Gが促進する没入型アプリケーションの市場概観と予測 2019-2024年」は、5G上の音声通信(Vo5G)とリアルタイム通信、没入型アプリケーションが促進する5Gインフラストラクチャの市場を査定している。主要企業、戦略、利用ケース、用途について記載している。 2019-2024年のインフラストラクチャと支援技術の分析と市場規模を評価している。5Gインフラストラクチャのすべての主要機器、アプリケーション、産業セグメントの2019-2024年の市場を詳細に予測している。
Overview
Fifth Generation (5G) cellular will enable many new advanced functions such as significantly greater capacity, dramatically lower latency, and optimized support for Internet of Things (IoT) networks. This will support enhanced mobile broadband, ultra-reliable communications, and massive IoT deployment. 5G will also introduce the ability to implement network slicing for dynamic network allocation, enforceable SLA/QoE, and network as a service. Leading communication service providers will leverage their investment in Software Defined Networks (SDN) and Network Function Virtualization (NFV) to optimize network slice allocation as well as overall network management and 5G orchestration.
An essential component of 5G networks, Mobile Edge Computing (MEC) facilitates optimization of fifth generation network resources including focusing communications and computational capacity where it is needed the most. Without MEC, 5G would continue to rely upon back-haul to centralized cloud resource for storage and computing, diminishing much of the otherwise positive impact of latency reduction enabled by 5G. In other words, MEC enables users and devices to store/access much higher volumes of data by way of direct access to the Internet rather than relying upon transport through the core of cellular networks.
Some big changes are coming to the Radio Access Network (RAN) portion of cellular networks with the “New Radio” (5GNR) portion of 5G as 5GNR will use millimeter wave (mmWave) radio propagation. LTE and prior stages of cellular radio uses centimeter to meter sized waves and lower frequencies. Implementation of mmWave based radio will enable fiber-like performance with great capacity, low cost per bit, and ultra-low latency required to support mission critical services ranging from public safety applications to robotics. Additional application areas include industrial automation, haptic Internet and virtual reality.
While 5G deployment is leveraging some new frequency bands, and will entail a 10 to 100 times expansion of number of cells, much of it will NOT be mmWave. Instead, a big part of 5G is driven by the evolution of 4G/LTE (Long Term Evolution standard). In fact, technology improvements for LTE are ongoing as it will continue to be relied upon for many applications and services for a long time. Accordingly, vendors to continue to optimize LTE capabilities such as improved uplink capacity to support video and wireless communication to cloud-based applications. LTE adoption will continue at a fast pace with many innovations overlapping with 5G operations.
IoT solutions will benefit greatly from the implementation of 5G as cellular providers deploy Low Power WAN (LPWAN) IoT network capabilities. Initial deployments of IoT LPWANs have been non-cellular solutions based on proprietary technologies. However, Mind Commerce sees emerging standards such as Narrowband IoT (NB-IoT) assuming a dominant role for certain IoT applications. We see many industry verticals willing to pay a premium over non-cellular LPWAN, enhanced flexibility, and improved capabilities associated with IoT on 5G networks. The use of 5G for Industrial IoT (IIoT) networks in particular will be of great importance to enterprise IIoT in certain industry verticals such as agriculture, logistics, and manufacturing.
In terms of voice services and voice-enabled applications, 5G will usher new architectures into carrier networks enabling many new advanced capabilities including Voice over 5G (Vo5G), which will support voice/audio as a key component of communications for a wide variety of apps and services for many consumer, enterprise, and industrial solutions. Vo5G will utilize video or voice over NR infrastructure in coordination with voice or video over eLTE, EPS fall-back, and RAT fall-back. However, the first phase of cellular voice leverages VoeLTE to route voice call but offering enhanced and robust solutions over 5G NR require implementation of EPS FB and RAT FB. The 5G NR solution cannot represent all voice or video call without the technical backbone of EPS FB and RAT FB.
A critically important part of the core 5G network infrastructure is the IP Multimedia Subsystem (IMS), which represents a framework composed of computing and telecom architecture elements intended for delivering Internet Protocol (IP) based multimedia services with quality of service over multiple access networks from a common core. IMS provides multimedia session control across multiple access networks with standardized quality of service control. It enables an operator to have a common ‘core’ across all its networks for communication services, and provides a relatively open environment for value added communication services. It also provides a framework for Voice over LTE (VoLTE) for high definition voice and Voice over 5G (Vo5G) for ultra-high definition voice communications.
IMS is not economically viable if the goal is simply to replicate existing services in a new architecture. The payoff of IMS is to develop and introduce new value-added services for incremental revenue at a lower cost per subscriber. Mind Commerce sees an important portion of those VAS applications being ultra-high definition voice enabled next generation apps such as virtual reality. In addition, we see emerging technologies, such as haptic Internet and robotic teleoperation will become commonplace thanks to 5G infrastructure.
5G radio infrastructure covered in this report includes Distributed Macrocell (5G Base Stations), Small Cells (Microcell, Femtocell, and Picocell), RRHs (Remote Radio Heads), C-RAN BBUs (Baseband Units) and Distributed Antenna System (DAS) equipment. IMS infrastructure covered in this report includes Home Subscriber Server (HSS), User Profile Server Function (UPSF), Breakout Gateway Control Function (BGCF), Media Gateway Controller Function (MGCF), and Media Resource Function (MRF).
This report assesses the 5G infrastructure market driven by Vo5G, Real-time Communications, and Immersive Applications. The report assesses leading companies and strategies, use cases, and applications. The report evaluates infrastructure and supporting technologies with analysis and market sizing from 2019 through 2024. Accordingly, the report includes detailed 5g infrastructure market forecasts for all major equipment, application, and industry segments for the 2019 to 2024 period.
Target Audience:
• Regulatory and Policy Groups
• Exporters, Importers and Traders
• Business and Financial Institutions
• Associations and Technology Groups
• Corporate and Institutional Investors
• Government and International Bodies
• Lawyers, Bankers, Libraries, Embassies
• Patent Offices and Technology Executives
• Venture Capitalists, Consultants and more
• Management Consulting and Advisory Firms
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Table of Contents
1.0 Executive Summary
2.0 Introduction
2.1 5G Infrastructure
2.2 Standardization
2.3 Vo5G to accelerate 5G Infrastructure Roll-out
3.0 5G Technology and Market Analysis
3.1 5G NR Infrastructure
3.1.1 5G Base Station
3.1.2 Small Cell
3.1.3 Macro Cell
3.1.4 Baseband Units and RF Units
3.1.5 Remote Radio Heads
3.1.6 Distributed Antenna System (DAS)
3.2 IP Multimedia Subsystem (IMS)
3.3 Voice over LTE (VoLTE) and IMS Functions Network for Vo5G
3.4 EPS and RAT Fall Back Multicarrier Network Solution
3.5 Artificial Intelligence to Enhance Functional Intelligence
3.6 HPC to Enhance Computing Performance
3.7 5G Security to Protect Data, Communication, and Network
4.0 5G Ecosystem and Value Chain Analysis
4.1 Real Time Voice and Video Communication
4.2 Mobile VoIP
4.3 SMS and USSD Solution
4.4 IoT Modular Solution
4.5 Mobile AR and VR
4.5.1 360 Video VR Experience will Play Pivotal Role
4.5.2 Real Time VR will Kick-off the Market
4.5.3 Allowing Full HD Streaming and 4K Video for VR
4.5.4 Vo5G to Take Haptic Experience Mainstream in VR Application
4.5.5 Vo5G to Allow Telecom Operators Playing Pivotal Role into VR Ecosystem
4.5.6 5G to Support Drone and Telerobotic into VR Ecosystem
4.5.7 Chip Manufacturer to Play Important Role
4.6 Automated Assistant Apps and Devices
4.7 Edge Processing for Voice over WiFi
4.8 Enabling Network Data Analytics
4.9 CPaaS and UCaaS
4.10 Vo5G Trial and Development
4.11 Vo5G Value Chain Analysis
4.11.1 5G NR Infrastructure Providers
4.11.2 VoLTE and IMS Infrastructure Suppliers
4.11.3 Enabling Technology Providers
4.11.4 5G Device OEMs
4.11.5 Deployment and Test, Roaming, and Billing Service Providers
4.11.6 Mobile Operators
5.0 Company Analysis
5.1 CISCO Systems Inc.
5.2 Nokia Networks
5.3 Ericsson AB
5.4 Qualcomm Incorporated
5.5 Huawei Technologies Co. Ltd.
5.6 Intel Corporation
5.7 AT&T Inc.
5.8 SK Telecom Telecom Co. Ltd.
5.9 Verizon Communications
5.10 China Mobile
5.11 NTT DoCoMo Inc.
5.12 Vodafone
5.13 Other Companies
5.13.1 Samsung Electronics Co. Ltd.
5.13.2 LG Electronics Inc.
5.13.3 T-Mobile US Inc.
5.13.4 KT Corporation
5.13.5 NEC Corporation
5.13.6 Fujitsu Ltd.
5.13.7 ZTE Corporation
5.13.8 Deutsche Telekom AG
5.13.9 Broadcom Corporation
5.13.10 LG Uplus Corp.
5.13.11 SingTel
5.13.12 Telefonica
5.13.13 HPE
5.13.14 VMware Inc.
5.13.15 MediaTek Inc.
5.13.16 Juniper Networks, Inc.
5.13.17 Analog Devices Inc.
5.13.18 MACOM Technology
5.13.19 Orange SA
5.13.20 Cavium
5.13.21 Qorvo Inc.
6.0 5G Infrastructure Market Analysis and Forecasts 2019 – 2024
6.1 5G Infrastructure Market by IMS Signaling and Control
6.2 5G Infrastructure Market by Radio Infrastructure Type
6.3 5G Infrastructure Market by IMS Function Type
6.4 5G Infrastructure Market by Application Type
6.5 5G Infrastructure Market by Edge Processing
6.6 5G Infrastructure Market by Communication Solution Type
6.7 Regional 5G Infrastructure Market Forecast 2019 – 2024
7.0 Conclusions and Recommendations
7.1 Advertisers and Media Companies
7.2 Artificial Intelligence Providers
7.3 Automotive Companies
7.4 Broadband Infrastructure Providers
7.5 Communication Service Providers
7.6 Computing Companies
7.7 Data Analytics Providers
7.8 Equipment (AR, VR, and MR) Providers
7.9 Networking Equipment Providers
7.10 Networking Security Providers
7.11 Semiconductor Companies
7.12 IoT Suppliers and Service Providers
7.13 Software Providers
7.14 Smart City System Integrators
7.15 Automation System Providers
7.16 Social Media Companies
7.17 Workplace Solution Providers
7.18 Enterprises and Governments
7.19 Telecom Operators
8.0 Appendix: 5G and Virtual Reality
8.1 VR Evolution
8.2 5G Promises to VR Application
8.2.1 Wireless Network Requirement Parameters for VR
8.2.2 Capacitive Sensing and Touch Sensor Technology
8.3 Proliferation of Full Feature Device and Mixed Reality
8.4 Emergence of Eyewear VR Devices
8.5 VR to be Immersive Social Communication Platform
8.6 360 video VR experience will Play Pivotal Role
8.7 Real Time VR will Kick-off the Market
8.8 5G to Allow Full HD Streaming and 4K Video for VR
8.9 5G to Take Haptic Experience Mainstream in VR Application
8.10 5G to allow Network Operators to Play Pivotal Role into VR Ecosystem
8.11 5G to Support Drone via Tele-robotics and VR Ecosystem
8.12 Chip Manufacturer to Play Important Role
8.13 Increasing role of VR Service Players
8.14 Wide Adoption of VR Applications in Diverse Sectors
8.15 Virtual Privacy and Criminality will be New Battle Ground
8.16 VR Ecosystem in Post-5G Era
Figures
Figure 1: Vo5G Architecture
Figure 2: 5G NR Requirements
Figure 3: 5G NR Access Network Architecture
Figure 4: 5G IoT Architecture
Figure 5: VR Streaming Live Sports Event
Figure 6: Nokia 5G Requirement Vision 2020
Figure 7: Nokia 5G Network Design Architecture
Figure 8: Nokia Network IoT Solution Ecosystem
Figure 9: Intel 5G Vision
Figure 10: NEC 5G Vision
Figure 11: ZTE 5G Vision
Figure 12: 5G Infrastructure Market by Edge Processing 2019 – 2024
Figure 13: North America 5G Infrastructure Market by Edge Processing 2019 – 2024
Figure 14: Europe 5G Infrastructure Market by Edge Processing 2019 – 2024
Figure 15: APAC 5G Infrastructure Market by Edge Processing 2019 – 2024
Figure 16: MEA 5G Infrastructure Market by Edge Processing 2019 – 2024
Figure 17: Latin America 5G Infrastructure Market by Edge Processing 2019 – 2024
Figure 18: VR Market Acceleration Curve: Experiment to Experience 2016 – 2025
Figure 19: 5G Use Cases and Requirements for Bandwidth and Latency
Figure 20: VR Scenario to Stream Live Sports Event
Figure 21: Wireless Network Requirement Parameters for VR Applications
Figure 22: Demonstration of Real Time VR Piloting Shuttlecraft
Figure 23: VR Ecosystem Diagram for Post-5G Era
Tables
Table 1: 5G Spectrum Bands
Table 2: Juniper Networks Product Snapshot
Table 4: 5G Infrastructure Market by IMS Signaling and Control 2019 – 2024
Table 5: 5G Infrastructure Market by Radio Infrastructure Type 2019 – 2024
Table 6: 5G Infrastructure Market by IMS Functions Solution Type 2019 – 2024
Table 9: 5G Infrastructure Market by Application Type 2019 – 2024
Table 7: 5G Infrastructure Market by Communication Solution Type 2019 – 2024
Table 8: 5G Infrastructure Market by Region 2019 – 2024
Table 9: North America 5G Infrastructure Market by IMS Signaling and Control 2019 – 2024
Table 10: North America 5G Infrastructure Market by Communication Solution Type 2019 – 2024
Table 11: North America 5G Infrastructure Market by IMS Functions Solution Type 2019 – 2024
Table 12: North America 5G Infrastructure Market by Application Type 2019 – 2024
Table 13: North America Vo5G Market by Communication Solution Type 2019 – 2024
Table 14: North America 5G Infrastructure Market by Country 2019 – 2024
Table 15: Europe 5G Infrastructure Market by IMS Signaling and Control 2019 – 2024
Table 16: Europe 5G Infrastructure Market by Radio Infrastructure Type 2019 – 2024
Table 17: Europe 5G Infrastructure Market by IMS Functions Solution Type 2019 – 2024
Table 18: Europe 5G Infrastructure Market by Application Type 2019 – 2024
Table 19: Europe 5G Infrastructure Market by Communication Solution Type 2019 – 2024
Table 20: Europe 5G Infrastructure Market by Country 2019 – 2024
Table 21: APAC 5G Infrastructure Market by IMS Signaling and Control 2019 – 2024
Table 22: APAC 5G Infrastructure Market by Radio Infrastructure Type 2019 – 2024
Table 23: APAC 5G Infrastructure Market by IMS Functions Solution Type 2019 – 2024
Table 24: APAC 5G Infrastructure Market by Application Type 2019 – 2024
Table 25: APAC 5G Infrastructure Market by Communication Solution Type 2019 – 2024
Table 26: APAC 5G Infrastructure Market by Country 2019 – 2024
Table 27: MEA 5G Infrastructure Market by IMS Signaling and Control 2019 – 2024
Table 28: MEA 5G Infrastructure Market by Radio Infrastructure Type 2019 – 2024
Table 29: MEA 5G Infrastructure Market by IMS Functions Solution Type 2019 – 2024
Table 30: MEA 5G Infrastructure Market by Application Type 2019 – 2024
Table 31: MEA 5G Infrastructure Market by Communication Solution Type 2019 – 2024
Table 32: MEA 5G Infrastructure Market by Country 2019 – 2024
Table 33: Latin 5G Infrastructure Market by IMS Signaling and Control 2019 – 2024
Table 34: Latin America 5G Infrastructure Market by Radio Infrastructure Type 2019 – 2024
Table 35: Latin America 5G Infrastructure Market by IMS Functions Solution Type 2019 – 2024
Table 36: Latin America 5G Infrastructure Market by Application Type 2019 – 2024
Table 37: Latin America 5G Infrastructure Market by Communication Solution Type 2019 – 2024
Table 38: Latin America 5G Infrastructure Market by Country 2019 – 2024
Table 39: Capacitive Sensing enabled Haptic Controller ICs
Table 40: VR Ecosystem Components Providers in Post-5G Era