출판:Berg Insight 출판년월:2022년04월
Private LTE/5G Networks for IoT Applications 1st Edition
IoT용 프라이빗 LTE/ 5G 네트워크 시장을 조사해 주요 프라이빗 LTE/5G 솔루션 제공 기업의 정보, 세계 시장의 상세한 분석, 2026년까지의 시장 예측 등을 제공
폐이지수 | 60 |
가격(PDF+Excel) | |
Single user license | Eur 1,500 |
2-10 User license | Eur 2,250 |
Corporate license | Eur 3,000 |
구성 | 영문조사보고서 |
Berg Insight「IoT용 프라이빗 LTE/5G 네트워크 제1판 – Private LTE/5G Networks for IoT Applications 1st Edition」은 IoT용 프라이빗 LTE/ 5G 네트워크 시장을 조사해 주요 프라이빗 LTE/5G 솔루션 제공 기업의 정보, 세계 시장의 상세한 분석, 2026년까지의 시장 예측 등을 제공하고 있습니다。
주요 게시물
- 개인 셀룰러 네트워크
- 개요
- 개인 LTE/5G 네트워크용 주파수 대역
- 개인 LTE/5G 네트워크 배포 모델
- 개인 셀룰러 네트워크 시장 분류
- 비즈니스 모델
- 시장 예측과 동향
- 시장 분석
- 비공개 LTE/5G 업계 플레이어
- 개인 네트워크 시장 규모 및 예측(유럽/북미/RoW)
- 비공개 LTE/5G 네트워크의 에지 기기 출하 수
- 기업 정보 및 전략
- 개인 LTE/5G 솔루션 공급업체
- 반도체 공급업체
Berg Insight estimates that there were a total of 1,400 private LTE/5G networks deployed across the world at the end of 2021, including trial and pilot deployments. With the growing momentum around private LTE and more local 5G spectrum becoming available across regions, the private LTE/5G network market is set to grow significantly in the next years. Until 2026, Berg Insight forecasts that the number of private LTE/5G network deployments will grow at a compound annual growth rate of 57 percent to reach 13,500 networks at the end of the period. Get up to date with the latest trends and information about vendors, products and markets.
Highlights from the report:
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- Insights from 20 new executive interviews with market leading companies.
- 360-degree overview of the private LTE/5G ecosystem.
- Comprehensive overview of spectrum availability for private LTE/5G network deployments.
- Profiles of the key private LTE/5G solution providers.
- In-depth analysis of private LTE/5G network deployments worldwide.
- Detailed market forecast on private LTE/5G network deployments and IoT device shipments by technology and vertical market lasting until 2026.
Executive Summary
Private LTE/5G network deployments to tenfold in the next five years
Private LTE/5G networks, referred to as non-public networks by the 3GPP, are networks that use spectrum defined by the 3GPP and LTE or 5G NR base stations, small cells and other radio access network (RAN) infrastructure to transmit voice and data to edge devices. For the purpose of this report, Berg Insight defines a private cellular network as a 3GPP-based private LTE/5G network built for the sole use of a private entity such as an enterprise or government organisation.
Advancements in cellular technology, along with the increasing availability of dedicated spectrum for industries are currently transforming the private cellular network market from a niche to a substantial market. These developments open up a range of opportunities for the cellular ecosystem, fuelling a new wave of investments by established network equipment vendors but also attracting new entrants into the space.
The major RAN vendors (Ericsson, Nokia and Huawei) all play significant roles as integrated solution providers and are challenged by a number smaller RAN equipment providers. Notably, Nokia became the first vendor to offer a private LTE/5G solution as-a-service with the introduction of the Nokia DAC in 2018 and has been followed by a host of other players across the ecosystem in recent time. Small cell and other RAN equipment vendors such as Airspan Networks, JMA Wireless, Mavenir, CommScope and Samsung Networks provide competitive LTE/5G radio products.
Important specialised core network software vendors include Druid Software, Athonet, Quortus (acquired by Cradlepoint/Ericsson in December 2021), as well as Affirmed Networks and Metaswitch (both part of Microsoft since mid-2020). In line with the trend of network functions virtualization, the major cloud service providers AWS and Microsoft have increased their focus on the telecommunications market. Both offer private LTE/5G solutions with an as-a-service model together with RAN partners. Celona is another important new entrant in the space. Founded by an experienced team of wireless networking professionals in 2019, Celona provides an integrated private LTE/5G solution in a single SaaS subscription. Most recently in early 2022, Cisco entered the market through the launch of its Private 5G as-a-service offering together with its partners Airspan Networks and JMA Wireless.
Private LTE/5G network deployments are growing from a small base, with an increasing number of organisations trialling or planning to deploy networks. Berg Insight estimates that there are today more than 1,000 private LTE networks deployed globally, serving a variety of use cases. Private 5G network deployments are so far mainly concentrated to trial and pilot deployments and amounts to an estimated 200–300 networks. Until 2026, the number of private LTE/5G network deployments are expected to grow at a compound annual growth rate (CAGR) of 57 percent to reach 13,500 networks at the end of the period.
Spectrum availability is the most important enabling factor for the adoption of private LTE/5G networks. While the CBRS band in the US allows for both private LTE and 5G network deployments, organisations looking to deploy private LTE networks generally need to gain access to spectrum via mobile operators in most other markets. National regulators in an increasing number of countries, especially in Europe, are introducing local licensing models for private 5G networks. The private 5G ecosystem is however still in an early stage, especially on the device side.
The 5G IoT device value chain starts at the chipset and module levels. Following the commercial availability of 5G NR modules in mid-2020, several cellular IoT gateway vendors have introduced devices supporting 5G NR connectivity. 5G NR modules supporting 3GPP Release 16 and URLLC capabilities are starting to become available in samples, meaning that IoT devices built on the modules are likely to be introduced later in 2022. A key accelerator for the adoption of 5G in less demanding applications will be support for reduced capability (RedCap) devices. The specification is part of the upcoming 3GPP Release 17.
Berg Insight expects that 5G NR IoT device shipments for private 5G networks will ramp up significantly starting in 2023, as more network trials convert into deployments. Annual 5G NR IoT device shipments for private 5G networks are forecasted to reach 850,000 units in 2026, driven by the manufacturing & warehousing, transport & logistics and public safety & defence segments.
목차
Table of Contents
Executive summary
1 Private cellular networks
1.1 Introduction
1.2 Spectrum for private LTE/5G networks
1.2.1 Licensed spectrum
1.2.2 Unlicensed spectrum
1.2.3 Shared spectrum
1.3 Private LTE/5G network deployment models
1.4 Private cellular network market segmentation
1.4.1 Indoor mobile phone networks
1.4.2 Campus IT networks
1.4.3 Neutral host networks
1.4.4 Critical communications networks
1.4.5 IoT networks
1.5 Business models
2 Market forecasts and trends
2.1 Market analysis
2.2 Private LTE/5G industry players
2.3 Private network market sizing and forecast
2.3.1 Private LTE/5G network deployments in Europe
2.3.2 Private LTE/5G network deployments in North America
2.3.3 Private LTE/5G network deployments in the Rest of World
2.4 Edge device shipments for private LTE/5G networks
2.5 The future of private cellular attracts M&A activity
3 Company profiles and strategies
3.1 Private LTE/5G solution vendors
3.1.1 Accelleran
3.1.2 Airspan Networks
3.1.3 Athonet
3.1.4 Amazon Web Services
3.1.5 Celona
3.1.6 Cisco
3.1.7 CommScope
3.1.8 Druid Software
3.1.9 Ericsson
3.1.10 Geoverse
3.1.11 JMA Wireless
3.1.12 Mavenir
3.1.13 Microsoft
3.1.14 Nokia
3.2 Semiconductor vendors
3.2.1 Qualcomm
3.2.2 Sequans Communications
3.2.3 Sony Semiconductor
Glossary
List of Figures
Figure 1.1: Dedicated local spectrum considered or assigned by country ………….5
Figure 1.2: Dedicated spectrum for WANs considered or assigned by country…………6
Figure 1.3: CBRS band overview…………………………………. 10
Figure 1.4: Private cellular network deployment models …………………… 11
Figure 1.5: Potential sites for deploying private cellular networks ………………. 12
Figure 1.6: Private cellular network use case segments ……………………. 13
Figure 1.7: Performance requirements for demanding industrial use cases ………… 15
Figure 1.8: Delivery models for private cellular network solutions ………………. 16
Figure 2.1: Private LTE/5G solution vendors …………………………. 19
Figure 2.2: Private LTE/5G device ecosystem………………………….. 20
Figure 2.3: Private LTE/5G network deployments (World 2020-2026) …………… 21
Figure 2.4: Private LTE/5G network deployments by vertical market (World 2021) …….22
Figure 2.5: 900 MHz licensing landscape in the US…………………….. 25
Figure 2.6: IoT device shipments for private LTE/5G networks………………… 28
Figure 2.7: Technology positioning of RedCap in relation to eMBB, URLLC and mMTC…..29
Figure 2.8: M&A activity in the private cellular network market………………… 30
Figure 3.1: AWS Private 5G …………………………………… 35
Figure 3.2: Celona’s private LTE/5G solution ………………………… 37
Figure 3.3: Cisco Private 5G overview…………………………….. 38
Figure 3.4: The Raemis technology platform ………………………… 40
Figure 3.5: Ericsson’s Private Networks solution ………………………… 42
Figure 3.6: Ericsson private cellular network projects by vertical as of Q1-2022……… 44
Figure 3.7: Geoverse CBRS PAL license footprint ………………………. 45
Figure 3.8: O-RAN CBRS architecture …………………………….. 47
Figure 3.9: Microsoft’s private mobile network solution architecture……………… 48
Figure 3.10: Examples of Microsoft’s private 5G core partners ……………….. 49
Figure 3.11: Nokia Digital Automation Cloud overview …………………… 50
Figure 3.12: Nokia DAC and MPW positioning…………………………. 51
Figure 3.13: Nokia private wireless customer segmentation as of Q3-2021…………. 52
Figure 3.14: Routes to market for cellular chipsets ……………………… 53
Figure 3.15: Qualcomm’s 315 5G IoT modem …………………………. 54