5G New Radio (NR) Networks for Private IoT Networks and Industrial Automation




Published: August 2017   Pages: 60
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Overview:

5G New Radio (NR) access technology is a part of 5G Radio Access Network (RAN) architecture that is composed of LTE evolution and NR technology that will be operable from sub-1 GHz to 24+ GHz in a range of low band, mid band, and high band. A variety of complementary technologies will enable 5G NR supported systems including massive MIMO, advanced LPDC, TDD sub-frame, network slicing, and Millimeter Wave (mmWave) radio frequency.

For communication service providers, mmWave will bring both challenges and opportunities for general RAN infrastructure and in particular for private Internet of Things (IoT) networks for industrial automation and mission critical services for enterprise across many industry verticals. In addition to direct services mobile network operator services, there will be opportunities for Virtual Network Operator (VNO) IoT Service Providers.

From an infrastructure and managed services perspective, 5G NR will facilitate vertical market opportunities for vendors to offer distributed macro-cell base stations, small cells unit, remote radio head units, and C-RAN baseband units for both dedicated and shared resource networks. 5G RRHs unit shipment alone will grow at 74.5% CAGR from 2017 to 2024, reaching 91 million units by 2024.

This research evaluates 5G NR and the market outlook for MNO and VNO to offer private IoT networks for the benefit of industrial automation and mission critical enterprise applications and services. The report evaluates major players, technologies, and solutions. The report also assesses market challenges, opportunities, and the overall outlook for 5G NR equipment and components. The report provides detailed forecasts for equipment globally and regionally as well as investment in 5G NR by industry vertical.

Target Audience:

• Industrial services providers
• Broadband wireless suppliers
• IoT equipment and service providers
• Mobile network operators and VNOs
• Managed communication service providers
• Enterprise verticals offering mission critical services
• Manufacturing and automation companies of all types

Table of Contents:

1 Introduction
1.1 5G New Radio Overview
1.2 5G NR Development
1.3 Industrial Automation and 5G NR
1.4 Private IoT Network: Architecture and Benefits
1.5 Spectrum Sharing and 5G NR
1.6 Private IoT Network Industry Application
2 Private LTE Network
2.1 Spectrum Allocation
2.1.1 CBRS
2.1.2 MulteFire
2.2 Private Virtual Network
2.3 Private LTE for Industrial IoT
2.4 Trial and Demonstration
2.5 Market Outlook and Forecasts
2.5.1 Private LTE Network Infrastructure Investment 2017 - 2024
2.5.2 Private LTE Network Infrastructure Investment by Market Segment
2.5.3 Private LTE Network Infrastructure Investment by Industry Vertical
2.5.4 Private LTE Network Infrastructure Investment by Region
3 Private 5G NR Access Network
3.1 Network Architecture and Submarket
3.1.1 OFDM
3.2 5G NR Network Standardization
3.2.1 3GPP Release 14 and 15
3.3 5G NR Network Design
3.3.1 Enabling Technology
3.3.2 Reconfigurable Factory
3.3.3 Non-Standalone and Standalone Deployment
3.4 Trials and Demonstrations
3.5 Market Outlook and Forecasts
3.5.1 Pre-Standard 5G NR Infrastructure Investment
3.5.2 Standardized 5G NR Infrastructure Investment
3.5.2.1 Standardized 5G NR Infrastructure Investment by Market Segment
3.5.2.2 Standardized 5G NR Infrastructure Investment by Industry Vertical
3.5.2.3 Standardized 5G NR Infrastructure Investment by Region
3.5.3 5G Core Network Infrastructure Investment
3.5.4 5G Transport Network Infrastructure Investment
3.5.5 5G NR Infrastructure Unit Shipment 2017 – 2024
3.5.5.1 5G Distributed Macro-cell BTS Shipments
3.5.5.2 5G Small Cells Unit Shipment
3.5.5.3 5G Remote Radio Heads (RRHs) Unit Shipment
3.5.5.4 5G C-RAN Base Band Units (BBUs) Unit Shipment
4 Conclusions and Recommendations
4.1 Spectrum Allocation
4.2 Competitive Challenges and Opportunities

Figures

Figure 1: 5G NR Requirements
Figure 2: Private LTE/5G IoT Network Benefits
Figure 3: Private LTE and 5G IoT Network Architecture
Figure 4: Private LTE Network Spectrum
Figure 5: CBRS Three Tier Spectrum Sharing
Figure 6: MNO Virtual Private Network Architecture
Figure 7: Global Private LTE Network Infrastructure Investment 2017 – 2024
Figure 8: 5G NR Access Network Architecture
Figure 9: 3GPP Release 14 and 15 Timeline
Figure 10: mmWave in 5G NR Architecture
Figure 11: Massive MIMO in 5G NR Architecture
Figure 12: Non-Standalone Architecture for 5G NR Network
Figure 13: Global Pre-Standard 5G NR Infrastructure Investment 2017 – 2018
Figure 14: Global Standardized 5G NR Infrastructure Investment 2019 – 2024
Figure 15: Global Next Gen 5G Core Network Infrastructure Investment 2017 – 2024
Figure 16: Global 5G Transport (Front-haul and Backhaul) Network Infrastructure Investment 2017 – 2024
Figure 17: Global Distributed Macro-cell BTS Shipments 2017 – 2024
Figure 18: Global 5G Small Cells Shipments 2017 – 2024
Figure 19: Global 5G Remote Radio Heads Shipments 2017 – 2024
Figure 20: Global 5G C-RAN Base Band Units Shipments 2017 – 2024
Figure 21: Private IoT Network Competitive Landscape

Tables

Table 1: Global Private LTE Network Infrastructure Investment by Market Segment 2017 – 2024
Table 2: Global Private LTE Network Infrastructure Investment by Industry Vertical 2017 – 2024
Table 3: Private LTE Network Infrastructure Investment by Region 2017 – 2024
Table 4: Global Standardized 5G NR Infrastructure Investment by Market Segment 2017 – 2024
Table 5: Global Standardized 5G NR Infrastructure Investment by Industry Vertical 2019 – 2024
Table 6: Standardized 5G NR Infrastructure Investment by Region 2019 – 2024


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Broadband

M2M and IoT
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