Dublin, Oct. 01, 2020 (GLOBE NEWSWIRE) -- The "5G in IoT by Connectivity, Infrastructure, Sensors, Devices (Type, Sector, Verticals), and Things 2020-2025" report has been added to ResearchAndMarkets.com's offering.
This report assesses 5G technologies and solutions in support of the Internet of Things and includes an evaluation of key solution such as 5G enabled Mobile Edge Computing (MEC) and managed services for devices and IoT things. The report also analyzes the impact of 5G in IoT across infrastructure components including hardware, processors, embedded devices, software, and cloud-based service platforms. The report includes detailed forecasts through 2025.
Select Report Findings
5G and IoT enabled smart machines represent a $1.7B global opportunity by 2025
Device-level SLAs will be crucial for ensuring enterprise and industrial QoS requirements
5G is a must for in-building private wireless networks in support of ultra-reliable IoT applications
Application revenue for edge computing in 5G will exceed 46% of infrastructure spending by 2025
Driven by edge computing, micro-datacenters represent a $2.5B USD opportunity globally by 2025
The commercial deployment and operation of 5G will bring very important benefits to the ICT industry. One of those will be massive Internet of Things (IoT) networks, which refers to the ability of deploying and operating IoT systems at a very large scale. As the size of IoT systems grow to large scale, their scope will also increase in terms of the impact on enterprise systems and consumers' everyday lives. 5G will optimize IoT networks by way of radio frequency management that meets the needs of both narrowband IoT applications as well as those that require higher bandwidth, which may be on an on-demand basis.
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, the author 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. For example, we see IIoT in agriculture leveraging the use of Unmanned Aerial Vehicle (UAV) operation over 5G networks due to ultra-low latency and high capacity availability.
Deployed in conjunction with 5G, Mobile Edge Computing (MEC), will facilitate an entirely new class of low-power devices for IoT networks and systems. These devices will rely upon MEC equipment for processing. Stated differently, some IoT devices will be very light-weight computationally speaking, relying upon edge computing nodes for most of their computation needs. MEC is also important to 5G for non-IoT applications as support for improved mobile broadband (ultra-fast and high definition video, enhanced web browsing, etc.) and Ultra Reliable Low Latency Communications (URLLC) dependent apps (virtual reality, UAV operation, autonomous vehicles, robotics, etc.).
The things involved in IoT varies from devices used to detect, actuate, signal, engage, and more. IoT things also involve everything from gateways, modules, and sensors to hardware and embedded software within products and equipment and other consumer, enterprise, and industrial assets. The IoT ecosystem could easily become highly cumbersome with so many different things to consider as part of IoT provisioning, activation, administration and other management functions. Accordingly, there is a keen need for managed service solutions in support of provisioning, administration, maintenance, and security.
Key Topics Covered:
1 Executive Summary
2.1 5G Technology and Spectrum Development
2.2 IoT Market Overview
2.3 5G Supported IoT
2.4 IoT Edge Computing in 5G
2.5 LPWAN Faceoff: Cellular vs. Non-Cellular IoT Network
2.6 LPWAN Public vs. Private IoT Network
2.7 5G NR Infrastructure and Massive IoT
2.8 CAT M for 5G
2.9 Enterprise Mobility and Cloud Development
2.10 Supporting Networks of Things
3 5G IoT Ecosystem Analysis
3.1 5G IoT Value Chain
3.1.1 Wireless Network Infrastructure
3.1.2 IoT Infrastructure
3.1.3 IoT Application
3.2 5G IoT Applications in Industry Verticals
3.2.1 Retail and Consumer Electronics Application
3.2.2 Healthcare Applications
3.2.3 Industrial Automation Applications
3.2.4 Intelligent Building Automation Applications
3.2.5 Automotive and Transportation Applications
3.2.6 Home Automation Applications
3.2.7 Financial Institution Applications
3.2.8 Energy and Utility Applications
3.2.9 Public Safety Applications
3.2.10 Military Applications
3.2.11 Oil and Gas Applications
3.2.12 Mining Applications
3.2.13 Agriculture Applications
4 Managing the Things in IoT
4.1 Important Things Management Considerations
4.1.1 IoT Components will Grow Exponentially
4.1.2 Edge Devices and Analytics will play Critical Role
4.1.3 Network and Connectivity will be a Tough Choice
4.1.4 Regulatory and Standardization Effort will Start Shaping the IoT Market
4.1.5 Security and Privacy will continue as High Concerns
4.1.6 Smart City and Smart Home will Spike the IoT Growth
4.2 SLAs are Key to Things Management
4.2.1 SLA in IoT
184.108.40.206 IoT SLAs for Networks, Devices, and Data
220.127.116.11 IoT SLAs for Availability and Performance
18.104.22.168 SLA Support of IoT Orchestration and Mediation
22.214.171.124 SLA Support IoT Authentication, Authorization, and Accounting
4.2.2 IoT SLA Support of IoT Data as a Service
126.96.36.199 IoT Data as a Service Model
188.8.131.52 IoT DaaS SLAs
5 Managing Devices in Support of IoT Things
5.1 Introduction to IoT Device Management Systems
5.2 Key Requirements for IoT Device Management Systems
5.2.1 Device Management Agent
5.2.2 Device Management in a Service/Cloud Environment
5.3 Fundamentals of Device Management Systems
5.3.1 Enrollment and Provisioning
5.3.2 Configuration and Association
5.3.3 Monitoring and Diagnostics
5.3.4 Management and Control
5.3.5 Software Updates
5.4 Commercialization of IoT Device Management Systems
5.5 IoT Device Management System Demand by Industry
5.5.1 Smart Cities
5.5.2 Fleet Management and Transportation
5.5.6 Oil & Gas Industry
5.6 IoT Device Management Challenges
5.6.1 Anticipating Cause and Effect
5.6.2 Handling Device Management Needs by Specific Industry / Function
5.7 IoT Device Registry
6 5G in IoT Market Analysis and Forecasts 2020-2025
6.1 5G IoT Market 2020-2025
6.1.1 Global 5G IoT Market 2020-2025
6.1.2 Global 5G IoT Market by Segment 2020-2025
6.1.3 Global 5G IoT Market by Sector 2020-2025
6.1.4 Global 5G IoT Market by Industry Vertical 2020-2025
6.1.5 5G IoT Market by Region 2020-2025
6.2 5G Infrastructure Market 2020-2025
6.3 5G R&D Investment 2019-2025
6.4 5G Edge Computing Market in IoT 2020-2025
6.4.1 Global 5G Edge Computing Market in IoT 2020-2025
6.4.2 Global 5G Edge Computing Market in IoT by Segment 2020-2025
184.108.40.206 Global 5G Edge Computing Market in IoT by Infrastructure Type 2020-2025
220.127.116.11 Global 5G Edge Computing Market in IoT by Service Type 2020-2025
6.4.3 Global 5G Edge Computing Market in IoT by Industry Vertical 2020-2025
6.4.4 5G Edge Computing Market in IoT by Region 2020-2025
18.104.22.168 North America 5G Edge Computing Market in IoT by Country 2020-2025
22.214.171.124 Europe 5G Edge Computing Market in IoT by Country 2020-2025
126.96.36.199 APAC 5G Edge Computing Market in IoT by Country 2020-2025
188.8.131.52 Middle East and Africa 5G Edge Computing Market in IoT by Country 2020-2025
184.108.40.206 Latin America 5G Edge Computing Market in IoT by Country 2020-2025
7 5G IoT Device and Things Market Analysis and Forecasts 2020-2025
7.1 5G Connected IoT Device 2020-2025
7.2 5G Connected IoT Things 2020-2025
7.3 Edge Solution Connected 5G IoT Device 2020-2025
7.4 Edge Solution Connected 5G IoT Things 2020-2025
8 Company Analysis
8.1 Cisco Systems Inc.
8.2 Nokia Networks
8.3 Samsung Electronics Co. Ltd.
8.4 Ericsson AB
8.5 Qualcomm Incorporated
8.6 Huawei Technologies Co. Ltd.
8.7 Intel Corporation
8.8 AT&T Inc.
8.9 SK Telecom Co. Ltd.
8.10 LG Electronics Inc.
8.11 Verizon Communications
8.12 T-Mobile US Inc.
8.13 KT Corporation
8.14 China Mobile
8.15 NEC Corporation
8.16 Fujitsu Ltd.
8.17 ZTE Corporation
8.18 Deutsche Telekom AG
8.19 NTT DoCoMo Inc.
8.20 NTT DATA Corporation
8.21 Broadcom Corporation
8.22 LG Uplus Corp.
9 Conclusions and Recommendations
9.1 MNO Strategy for 5G IoT
9.2 CSP Strategy for 5G IoT
10 Appendix: 5G Supporting Technologies
For more information about this report visit https://www.researchandmarkets.com/r/ir793s
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