5GとオープンRAN時代のSON　2022-2030年

出版：SNS Telecom & IT (SNSテレコム&IT)　出版年月：2022年12月

SON (Self-Organizing Networks) in the 5G & Open RAN Era: 2022 – 2030 – Opportunities, Challenges, Strategies & Forecasts
5GとオープンRAN時代のSON　2022-2030年：機会、課題、戦略、予測

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SNS Telecom & IT（SNSテレコム＆IT）「5GとオープンRAN時代のSON　2022-2030年：機会、課題、戦略、予測 – SON (Self-Organizing Networks) in the 5G & Open RAN Era: 2022 – 2030 – Opportunities, Challenges, Strategies & Forecasts」は世界のSON（Self Organizing Network）市場を調査し、主要サブマーケットや主要地域毎に行った分析・予測結果を提供します。

主な対象セグメント

• 市場予測
  •  SONおよびネットワーク最適化
    • SON
    • 従来型モバイルネットワーク計画＆最適化
  • SONネットワークセグメントのサブマーケット
    • RAN（無線アクセスネットワーク）
    • モバイルモア
    • トランスポート（フロントホール、ミドルホール、バックホール）
• RANセグメントSONアーキテクチャのサブマーケット
  • 従来型D-SON＆C-SON
    • 組み込みDーSON（分散型SON)
    • サードパーティC-SON（集中型SON）とOSSプラットフォーム
  • オープンRAN RIC、xApps&rApps
    • RIC（RANインテリジェントコントローラー）プラットフォーム
    • 準リアルタイムxApps
    • 非リアルタイムrApps
  • モバイル事業者の社内向けSONツールおよびシステム
• SONアクセスネットワーク技術のサブマーケット
  • 2G＆3G
  • LTE
  • 5G
  • Wi-Fi＆その他
• 地域別市場
  • 北米
  • アジア太平洋地域
  • 欧州
  • 中東＆アフリカ
  • ラテンアメリカ＆中米

主な掲載内容

1. 概説
2. SONとモバイルネットワーク最適化のエコシステム
3. SON技術、実行アーキテクチャ、ユースケース
4. 次世代型SON実装における重要動向
5. 規格化、法規制、コラボレーション構想
6. SON展開のケーススタディ
7. エコシステム内主要プレイヤ
8. 市場規模＆予測
9. まとめおよび最適化

Synopsis

SON (Self-Organizing Network) technology minimizes the lifecycle cost of running a mobile network by eliminating manual configuration of network elements at the time of deployment right through to dynamic optimization and troubleshooting during operation. Besides improving network performance and customer experience, SON can significantly reduce the cost of mobile operator services, improving the OpEx-to-revenue ratio and deferring avoidable CapEx.

Early adopters of SON have already witnessed a multitude of benefits in the form of accelerated 5G NR and LTE RAN (Radio Access Network) rollout times, simplified network upgrades, fewer dropped calls, improved call setup success rates, higher end user throughput, alleviation of congestion during special events, increased subscriber satisfaction and loyalty, operational efficiencies such as energy and cost savings, and freeing up radio engineers from repetitive manual tasks.

Although SON was originally developed as an operational approach to streamline and automate cellular RAN deployment and optimization, mobile operators and vendors are increasingly focusing on integrating new capabilities such as self-protection against digital security threats and self-learning through AI (Artificial Intelligence) techniques, as well as extending the scope of SON beyond the RAN to include both mobile core and transport network segments – which will be critical to address 5G requirements such as end-to-end network slicing.

In addition, with the cellular industry’s ongoing shift towards open interfaces, virtualization and software-driven networking, the SON ecosystem is progressively transitioning from the traditional D-SON (Distributed SON) and C-SON (Centralized SON) approach to open standards-based components supporting RAN programmability for advanced automation and intelligent control.

The surging popularity of innovative Open RAN and vRAN (Virtualized RAN) architectures has reignited the traditionally niche and proprietary product-driven SON market with a host of open standards-compliant RIC (RAN Intelligent Controller), xApp and rApp offerings, which are capable of supporting both near real-time D-SON and non real-time C-SON capabilities for RAN automation and optimization needs.

SNS Telecom & IT estimates that global spending on RIC platforms, xApps and rApps will reach $120 Million in 2023 as initial implementations move from field trials to production-grade deployments. With commercial maturity, the submarket is further expected to quintuple to nearly $600 Million by the end of 2025. Annual investments in the wider SON market – which includes licensing of embedded D-SON features, third party C-SON functions and associated OSS platforms, in-house SON capabilities internally developed by mobile operators, and SON-related professional services across the RAN, mobile core and transport domains – are expected to grow at a CAGR of approximately 7% during the same period.

The “SON (Self-Organizing Networks) in the 5G & Open RAN Era: 2022 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents a detailed assessment of the SON market, including the value chain, market drivers, barriers to uptake, enabling technologies, functional areas, use cases, key trends, future roadmap, standardization, case studies, ecosystem player profiles and strategies. The report also provides global and regional market size forecasts for both SON and conventional mobile network optimization from 2022 till 2030, including submarket projections for three network segments, six SON architecture categories, four access technologies and five regional submarkets.

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report.

Key Findings

The report has the following key findings:

• The surging popularity of innovative Open RAN and vRAN (Virtualized RAN) architectures has reignited the traditionally niche and proprietary product-driven SON market with a host of open standards-compliant RIC (RAN Intelligent Controller), xApp and rApp offerings, which are capable of supporting both near real-time D-SON and non real-time C-SON capabilities for RAN automation and optimization needs.
• SNS Telecom & IT estimates that global spending on RIC platforms, xApps and rApps will reach $120 Million in 2023 as initial implementations move from field trials to production-grade deployments. With commercial maturity, the submarket is further expected to quintuple to nearly $600 Million by the end of 2025.
• Annual investments in the wider SON market – which includes licensing of embedded D-SON features, third party C-SON functions and associated OSS platforms, in-house SON capabilities internally developed by mobile operators, and SON-related professional services across the RAN, mobile core and transport domains – are expected to grow at a CAGR of approximately 7% during the same period.
• The third party SON vendor ecosystem is exhibiting signs of consolidation, with several prominent M&A deals such as Qualcomm’s recent acquisition of C-SON specialist Cellwize – in a bid to strengthen its 5G RAN infrastructure offerings, Elisa Automate’s merger with Polystar to form Elisa Polystar, and HCL’s acquisition of Cisco’s SON technology business.
• However, on the other hand, newer suppliers are also beginning to emerge – extending from VMware, Juniper Networks and other RIC platform providers to x/rApp specialists such as Cohere Technologies, DeepSig, Groundhog Technologies, Subex, B-Yond, Net AI and RIMEDO Labs.
• SON capabilities are playing a pivotal role in the ongoing proliferation of private 4G/5G networks, as evident from a growing number of cross-sector partnerships. For example, private wireless service provider Betacom is collaborating with Qualcomm to accelerate enterprise adoption of private 5G networks by combining the former’s 5GaaS (5G-as-a-Service) offering with the latter’s enablement ecosystem, including the Cellwize RAN automation and management platform. Similarly, Germany-based systems integrator Opticoms has entered into a partnership with SON specialist Innovile to automate and optimize Open RAN standards-compliant private 5G networks.
• Over the last two years, with the steep rise of mobile data consumption in residential areas during the COVID-19 pandemic-imposed lockdowns, mobile operators – despite coping relatively well – have recognized the importance of a more dynamic and automated approach to the optimization of network assets in order to provide a consistent and seamless user experience.
• The 2020-2022 period saw large-scale C-SON deployments by several operators, including but not limited to Verizon, EE (BT Group), Orange, Telefónica, Turkcell, beCloud (Belarusian Cloud Technologies), VEON, Ooredoo, Zain, BTC (Botswana Telecommunications Corporation), LTT (Libya Telecom & Technology), Telstra, Singtel, Telkomsel, Globe Telecom, Smart Communications (PLDT), and Telecom Argentina.

Topics Covered

• The report covers the following topics:
• Introduction to SON
• Value chain and ecosystem structure
• Market drivers and challenges
• SON technology, architecture and functional areas
• D-SON (Distributed SON), C-SON (Centralized SON), H-SON (Hybrid SON), RIC (RAN Intelligent Controller), xApps and rApps
• Review of over 40 SON use cases across the RAN, core and transport domains, ranging from ANR (Automatic Neighbor Relations) and rapid equipment configuration to advanced traffic steering, QoE-based optimization and automated anomaly detection
• Key trends in next-generation 5G SON implementations, including Open RAN and vRAN (Virtualized RAN) architectures, dynamic spectrum management, network slicing, edge computing, Big Data, advanced analytics, AI (Artificial Intelligence)/ML (Machine Learning) and zero-touch automation
• Case studies of 20 commercial-scale SON deployments and examination of ongoing projects covering both traditional D-SON/C-SON and RIC-x/rApp approaches
• Future roadmap for the SON market
• Standardization, regulatory and collaborative initiatives
• Profiles and strategies of more than 230 ecosystem players
• Strategic recommendations for SON solution providers and mobile operators
• Market analysis and forecasts from 2022 till 2030

Forecast Segmentation

Market forecasts are provided for each of the following submarkets and their subcategories:

• SON & Mobile Network Optimization
  • SON
  • Conventional Mobile Network Planning & Optimization
• SON Network Segment Submarkets
  • RAN (Radio Access Network)
  • Mobile Core
  • Transport (Fronthaul, Midhaul & Backhaul)

RAN Segment SON Architecture Submarkets

• Traditional D-SON & C-SON
  • Embedded D-SON (Distributed SON) Features
  • Third Party C-SON (Centralized SON) & OSS Platforms
• Open RAN RIC, xApps & rApps
  • RIC (RAN Intelligent Controller) Platforms
  • Near Real-Time xApps
  • Non Real-Time rApps
• Mobile Operators’ In-House SON Tools & Systems

SON Access Network Technology Submarkets

• 2G & 3G
• LTE
• 5G
• Wi-Fi & Others

Regional Markets

• North America
• Asia Pacific
• Europe
• Middle East & Africa
• Latin & Central America

Key Questions Answered

• The report provides answers to the following key questions:
• How big is the SON opportunity?
• What trends, drivers and challenges are influencing its growth?
• What will the market size be in 2025, and at what rate will it grow?
• Which submarkets and regions will see the highest percentage of growth?
• How do SON investments compare with spending on conventional mobile network optimization?
• What are the practical, quantifiable benefits of SON – based on live, commercial deployments?
• How can mobile operators capitalize on SON to ensure optimal network performance, improve customer experience, reduce costs, and drive revenue growth?
• What is the status of D-SON and C-SON adoption worldwide?
• When will open standards-based RIC platforms, xApps and rApps replace the traditional SON approach?
• What are the prospects of AI/ML-driven automation in the SON market?
• What opportunities exist for SON capabilities in the mobile core and transport network domains?
• How can SON ease the deployment of private 4G/5G networks for enterprises and vertical industries?
• In what way will SON facilitate network slicing and other advanced 5G capabilities?
• How does SON impact mobile network optimization engineers?
• Who are the key ecosystem players, and what are their strategies?
• What strategies should SON solution providers and mobile operators adopt to remain competitive?

目次

Table of Contents

1 Chapter 1: Introduction

1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned

2 Chapter 2: SON & Mobile Network Optimization Ecosystem

2.1 Conventional Mobile Network Optimization
2.1.1 Network Planning
2.1.2 Measurement Collection: Drive Tests, Probes & End User Data
2.1.3 Post-Processing, Optimization & Policy Enforcement
2.2 The SON (Self-Organizing Network) Concept
2.2.1 What is SON?
2.2.2 The Need for SON
2.3 Functional Areas of SON
2.3.1 Self-Configuration
2.3.2 Self-Optimization
2.3.3 Self-Healing
2.3.4 Self-Protection
2.3.5 Self-Learning
2.4 SON Value Chain
2.4.1 SON, xApp/rApp & Automation Specialists
2.4.2 OSS & RIC Platform Providers
2.4.3 RAN, Core & Transport Network Equipment Suppliers
2.4.4 Wireless Service Providers
2.4.4.1 National Mobile Operators
2.4.4.2 Fixed-Line Service Providers
2.4.4.3 Private 4G/5G Network Operators
2.4.4.4 Neutral Hosts
2.4.5 End Users
2.4.5.1 Consumers
2.4.5.2 Enterprises & Vertical Industries
2.4.6 Other Ecosystem Players
2.5 Market Drivers
2.5.1 The 5G & Open RAN Era: Continued Infrastructure Investments
2.5.2 Optimization in Complex Multi-RAN Environments
2.5.3 OpEx & CapEx Reduction: The Cost Savings Potential
2.5.4 Improving Subscriber Experience & Churn Reduction
2.5.5 Power Savings: Towards Greener Mobile Networks
2.5.6 Alleviating Congestion With Traffic Management
2.5.7 Enabling Plug & Play Deployment of Small Cells
2.5.8 Growing Adoption of Private 4G/5G Networks
2.6 Market Barriers
2.6.1 Complexity of Implementation
2.6.2 Reorganization & Changes to Standard Engineering Procedures
2.6.3 Lack of Trust in Automation
2.6.4 Proprietary SON Algorithms
2.6.5 Coordination Between Distributed & Centralized SON
2.6.6 Network Security Concerns: New Interfaces & Lack of Monitoring

3 Chapter 3: SON Technology, Implementation Architectures & Use Cases

3.1 Where Does SON Sit Within a Mobile Network?
3.1.1 RAN
3.1.2 Mobile Core
3.1.3 Transport (Fronthaul, Midhaul & Backhaul)
3.1.4 Device-Assisted SON
3.2 Traditional SON Architecture
3.2.1 D-SON (Distributed SON)
3.2.2 C-SON (Centralized SON)
3.2.3 H-SON (Hybrid SON)
3.3 Open Standards-Compliant RIC, xApps & rApps
3.3.1 RIC (RAN Intelligent Controller)
3.3.1.1 Near-RT (Real-Time) RIC
3.3.1.2 Non-RT (Real-Time) RIC
3.3.2 xApps: Open D-SON Applications
3.3.3 rApps: Open C-SON Applications
3.4 SON Use Cases
3.4.1 RAN-Centric Use Cases
3.4.1.1 ANR (Automatic Neighbor Relations)
3.4.1.2 CNR (Centralized Neighbor Relations)
3.4.1.3 PCI (Physical Cell ID) Allocation & Conflict Resolution
3.4.1.4 CCO (Coverage & Capacity Optimization)
3.4.1.5 MRO (Mobility Robustness Optimization)
3.4.1.6 MLB (Mobility Load Balancing)
3.4.1.7 RACH (Random Access Channel) Optimization
3.4.1.8 ICIC (Inter-Cell Interference Coordination) & eICIC (Enhanced ICIC)
3.4.1.9 COD/COC (Cell Outage Detection & Compensation)
3.4.1.10 MDT (Minimization of Drive Tests)
3.4.1.11 Advanced Traffic Steering
3.4.1.12 Automated Anomaly Detection
3.4.1.13 Massive MIMO & Beamforming Optimization
3.4.1.14 4G-5G Dual Connectivity Management
3.4.1.15 RAN Slice Management
3.4.1.16 DSS (Dynamic Spectrum Sharing)
3.4.1.17 Frequency Layer Management
3.4.1.18 BBU (Baseband Unit) Resource Pooling
3.4.1.19 Radio Resource Allocation for Complex Vertical Applications
3.4.1.20 Handover Management in V2X Communications Scenarios
3.4.1.21 Rapid Plug & Play Configuration of Small Cells
3.4.1.22 DAS (Distributed Antenna System) Optimization
3.4.2 Multi-Domain, Core & Transport-Related Use Cases
3.4.2.1 Self-Configuration & Testing of Network Elements
3.4.2.2 Domain Connectivity Management
3.4.2.3 Automated Inventory Checks
3.4.2.4 AIC (Automated Inconsistency Correction)
3.4.2.5 Self-Healing of Network Faults
3.4.2.6 Signaling Storm Protection
3.4.2.7 Energy Efficiency & Savings
3.4.2.8 QoS & QoE-Based Optimization
3.4.2.9 Congestion Prediction & Management
3.4.2.10 AI-Enabled Performance Diagnostics
3.4.2.11 Industrial IoT Optimization
3.4.2.12 Core Network Automation
3.4.2.13 Network Slicing Resource Allocation
3.4.2.14 Optimization of VNFs & CNFs
3.4.2.15 Auto-Provisioning of Transport Links
3.4.2.16 Transport Network Bandwidth Optimization
3.4.2.17 Wireless Transport Interference Management
3.4.2.18 Seamless Vendor Infrastructure Swap
3.4.2.19 SON Coordination Management
3.4.2.20 Cognitive & Self-Learning Networks

4 Chapter 4: Key Trends in Next-Generation SON Implementations

4.1 Open RAN & vRAN (Virtualized RAN) Architectures
4.1.1 Enabling RAN Automation & Intelligence With RIC, xApps & rApps
4.2 Small Cells, HetNets & RAN Densification
4.2.1 Plug & Play Small Cells
4.2.2 SON-Enabled Coordination of UDNs (Ultra-Dense Networks)
4.3 Shared & Unlicensed Spectrum
4.3.1 Dynamic Management of Spectrum Using SON
4.4 MEC (Multi-Access Edge Computing)
4.4.1 Potential Synergies With SON
4.5 Network Slicing
4.5.1 SON Mechanisms for Network Slicing in 5G Networks
4.6 Big Data & Advanced Analytics
4.6.1 Maximizing the Benefits of SON With Big Data
4.6.2 The Importance of Predictive & Behavioral Analytics
4.7 AI (Artificial Intelligence) & ML (Machine Learning)
4.7.1 Towards Self-Learning SON Engines
4.7.2 Deep Learning: Enabling Zero-Touch Mobile Networks
4.8 NFV (Network Functions Virtualization)
4.8.1 Enabling SON-Driven Deployment of VNFs & CNFs
4.9 SDN (Software-Defined Networking) & Programmability
4.9.1 Using the SDN Controller as a Platform for SON in Transport Networks
4.10 Cloud Computing
4.10.1 Facilitating C-SON Scalability & Elasticity
4.11 Other Trends & Complementary Technologies
4.11.1 Private 4G/5G Networks
4.11.2 FWA (Fixed Wireless Access)
4.11.3 DPI (Deep Packet Inspection)
4.11.4 Digital Security for Self-Protection
4.11.5 SON Capabilities for IoT Applications
4.11.6 User-Based Profiling & Optimization for Vertical 5G Applications
4.11.7 Addressing D2D (Device-to-Device) Communications & New Use Cases

5 Chapter 5: Standardization, Regulatory & Collaborative Initiatives

5.1 3GPP (Third Generation Partnership Project)
5.1.1 3GPP Standardization of SON Capabilities
5.1.2 LTE SON Features
5.1.2.1 Release 8
5.1.2.2 Release 9
5.1.2.3 Release 10
5.1.2.4 Release 11
5.1.2.5 Release 12
5.1.2.6 Releases 13 & 14
5.1.3 5G NR SON Features
5.1.3.1 Release 15
5.1.3.2 Release 16
5.1.3.3 Release 17
5.1.3.4 Release 18 & Beyond
5.1.4 Implementation Approach for 3GPP-Specified SON Features
5.2 O-RAN Alliance
5.2.1 Open RAN RIC Architecture Specifications
5.2.2 xApp & rApp Use Cases
5.3 OSA (OpenAirInterface Software Alliance)
5.3.1 M5G (MOSAIC5G) Project: Flexible RAN & Core Controllers
5.4 TIP (Telecom Infra Project)
5.4.1 RIA (RAN Intelligence & Automation) Project
5.5 ONF (Open Networking Foundation)
5.5.1 SD-RAN Project: Near Real-Time RIC & Exemplar xApps
5.6 Linux Foundation’s ONAP (Open Network Automation Platform)
5.6.1 OOF (ONAP Optimization Framework)-SON for 5G Networks
5.6.2 Interface Support for Open RAN RIC Integration
5.7 SCF (Small Cell Forum)
5.7.1 4G/5G Small Cell SON & Orchestration
5.8 OSSii (Operations Support Systems Interoperability Initiative)
5.8.1 Enabling Multi-Vendor SON Interoperability
5.9 NGMN Alliance
5.9.1 Conception of the SON Initiative
5.9.2 Recommendations for Multi-Vendor SON Deployment
5.9.3 SON Capabilities for 5G Network Deployment, Operation & Management
5.10 Others

6 Chapter 6: SON Deployment Case Studies

6.1 AT&T
6.1.1 Vendor Selection
6.1.2 SON Deployment Review
6.1.3 Results & Future Plans
6.2 Bell Canada
6.2.1 Vendor Selection
6.2.2 SON Deployment Review
6.2.3 Results & Future Plans
6.3 Bharti Airtel
6.3.1 Vendor Selection
6.3.2 SON Deployment Review
6.3.3 Results & Future Plans
6.4 BT Group
6.4.1 Vendor Selection
6.4.2 SON Deployment Review
6.4.3 Results & Future Plans
6.5 China Mobile
6.5.1 Vendor Selection
6.5.2 SON Deployment Review
6.5.3 Results & Future Plans
6.6 Elisa
6.6.1 Vendor Selection
6.6.2 SON Deployment Review
6.6.3 Results & Future Plans
6.7 Globe Telecom
6.7.1 Vendor Selection
6.7.2 SON Deployment Review
6.7.3 Results & Future Plans
6.8 KDDI Corporation
6.8.1 Vendor Selection
6.8.2 SON Deployment Review
6.8.3 Results & Future Plans
6.9 MegaFon
6.9.1 Vendor Selection
6.9.2 SON Deployment Review
6.9.3 Results & Future Plans
6.10 NTT DoCoMo
6.10.1 Vendor Selection
6.10.2 SON Deployment Review
6.10.3 Results & Future Plans
6.11 Ooredoo
6.11.1 Vendor Selection
6.11.2 SON Deployment Review
6.11.3 Results & Future Plans
6.12 Orange
6.12.1 Vendor Selection
6.12.2 SON Deployment Review
6.12.3 Results & Future Plans
6.13 Singtel
6.13.1 Vendor Selection
6.13.2 SON Deployment Review
6.13.3 Results & Future Plans
6.14 SK Telecom
6.14.1 Vendor Selection
6.14.2 SON Deployment Review
6.14.3 Results & Future Plans
6.15 Telecom Argentina
6.15.1 Vendor Selection
6.15.2 SON Deployment Review
6.15.3 Results & Future Plans
6.16 Telefonica Group
6.16.1 Vendor Selection
6.16.2 SON Deployment Review
6.16.3 Results & Future Plans
6.17 TIM (Telecom Italia Mobile)
6.17.1 Vendor Selection
6.17.2 SON Deployment Review
6.17.3 Results & Future Plans
6.18 Turkcell
6.18.1 Vendor Selection
6.18.2 SON Deployment Review
6.18.3 Results & Future Plans
6.19 Verizon Communications
6.19.1 Vendor Selection
6.19.2 SON Deployment Review
6.19.3 Results & Future Plans
6.20 Vodafone Group
6.20.1 Vendor Selection
6.20.2 SON Deployment Review
6.20.3 Results & Future Plans
6.21 Other Recent Deployments & Ongoing Projects
6.21.1 beCloud (Belarusian Cloud Technologies): AI-Enabled Network Automation & Performance Management
6.21.2 Beeline Russia: Transforming the Mobile Experience Using C-SON Technology
6.21.3 Betacom: Accelerating Enterprise Private 5G Adoption With RAN Automation
6.21.4 BTC (Botswana Telecommunications Corporation): SON for Nationwide Network Optimization
6.21.5 Celona: Self-Organizing 5G LAN Solution for Enterprises
6.21.6 America Movil: Accelerating 5G Rollouts Through SON-Based Automation
6.21.7 DISH Network Corporation: RIC-Based Custom RAN Programmability & Intelligence
6.21.8 DT (Deutsche Telekom): Berlin SD-RAN 4G/5G Outdoor Field Trial
6.21.9 KPN: SON-Driven Automation for Network Optimization
6.21.10 Kyivstar: Leveraging C-SON to Enhance Network Performance
6.21.11 Liberty Global: Building a Customer-First Network
6.21.12 LTT (Libya Telecom & Technology): Nationwide RAN Automation
6.21.13 NEC Corporation: Self-Learning Local 5G Networks
6.21.14 Opticoms: Optimizing Open RAN-Compliant Private 5G Networks
6.21.15 Rakuten Mobile: Embedded RIC for RAN Automation Applications
6.21.16 Smart Communications (PLDT): Enabling Multi-Vendor 4G/5G Network Automation
6.21.17 Smartfren: Facilitating Network Densification & HetNet Management With C-SON Technology
6.21.18 STC (Saudi Telecom Company): Automating Network Operations & Driving 5G Transformation
6.21.19 Telkomsel: SON-Enabled Automated Network Optimization
6.21.20 Telstra: Boosting Mobile Network Automation
6.21.21 Zain Group: SON for Performance Enhancement

7 Chapter 7: Key Ecosystem Players

7.1 Aarna Networks
7.2 Abside Networks
7.3 Accedian
7.4 Accelleran
7.5 Accuver (InnoWireless)
7.6 Actiontec Electronics
7.7 AI-LINK
7.8 AirHop Communications
7.9 Airspan Networks
7.10 AiVader
7.11 Aliniant
7.12 Allot
7.13 Alpha Networks
7.14 Altiostar (Rakuten Symphony)
7.15 Amazon/AWS (Amazon Web Services)
7.16 Amdocs
7.17 Anktion (Fujian) Technology
7.18 Anritsu
7.19 Arcadyan Technology Corporation (Compal Electronics)
7.20 Argela
7.21 Aria Networks
7.22 ArrayComm (Chengdu ArrayComm Wireless Technologies)
7.23 Artemis Networks
7.24 Artiza Networks
7.25 Arukona
7.26 Askey Computer Corporation (ASUS ? ASUSTeK Computer)
7.27 ASOCS
7.28 Aspire Technology (NEC Corporation)
7.29 ASTRI (Hong Kong Applied Science and Technology Research Institute)
7.30 ATDI
7.31 Atesio
7.32 Atrinet
7.33 Aurora Insight
7.34 Aviat Networks
7.35 Azcom Technology
7.36 Baicells
7.37 BandwidthX
7.38 BLiNQ Networks (CCI ? Communication Components Inc.)
7.39 Blu Wireless
7.40 Blue Danube Systems (NEC Corporation)
7.41 BTI Wireless
7.42 B-Yond
7.43 CableFree (Wireless Excellence)
7.44 Cambium Networks
7.45 Capgemini Engineering
7.46 Casa Systems
7.47 CBNG (Cambridge Broadband Networks Group)
7.48 CCS ? Cambridge Communication Systems (ADTRAN)
7.49 Celfinet (Cyient)
7.50 CellOnyx
7.51 Cellwize (Qualcomm)
7.52 CelPlan Technologies
7.53 CGI
7.54 Chengdu NTS
7.55 CICT ? China Information and Communication Technology Group (China Xinke Group)
7.56 Ciena Corporation
7.57 CIG (Cambridge Industries Group)
7.58 Cisco Systems
7.59 Cohere Technologies
7.60 Comarch
7.61 Comba Telecom
7.62 CommAgility (Wireless Telecom Group)
7.63 CommScope
7.64 COMSovereign
7.65 Contela
7.66 Continual
7.67 Corning
7.68 Creanord
7.69 DeepSig
7.70 Dell Technologies
7.71 DGS (Digital Global Systems)
7.72 Digitata
7.73 D-Link Corporation
7.74 DZS
7.75 ECE (European Communications Engineering)
7.76 EDX Wireless
7.77 eino
7.78 Elisa Polystar
7.79 Equiendo
7.80 Ericsson
7.81 Errigal
7.82 ETRI (Electronics & Telecommunications Research Institute, South Korea)
7.83 EXFO
7.84 Fairspectrum
7.85 Federated Wireless
7.86 Flash Networks
7.87 Forsk
7.88 Foxconn (Hon Hai Technology Group)
7.89 Fraunhofer HHI (Heinrich Hertz Institute)
7.90 Fujitsu
7.91 Gemtek Technology
7.92 GENEViSiO (QNAP Systems)
7.93 GenXComm
7.94 Gigamon
7.95 GigaTera Communications (KMW)
7.96 Google (Alphabet)
7.97 Groundhog Technologies
7.98 Guavus (Thales)
7.99 HCL Technologies
7.100 Helios (Fujian Helios Technologies)
7.101 HFR Networks
7.102 Highstreet Technologies
7.103 Hitachi
7.104 HPE (Hewlett Packard Enterprise)
7.105 HSC (Hughes Systique Corporation)
7.106 Huawei
7.107 iBwave Solutions
7.108 iConNext
7.109 Infinera
7.110 Infosys
7.111 InfoVista
7.112 Inmanta
7.113 Innovile
7.114 InnoWireless
7.115 Intel Corporation
7.116 InterDigital
7.117 Intracom Telecom
7.118 Inventec Corporation
7.119 ISCO International
7.120 IS-Wireless
7.121 ITRI (Industrial Technology Research Institute, Taiwan)
7.122 JMA Wireless
7.123 JRC (Japan Radio Company)
7.124 Juniper Networks
7.125 Key Bridge Wireless
7.126 Keysight Technologies
7.127 Kleos
7.128 KMW
7.129 Kumu Networks
7.130 Lemko Corporation
7.131 Lenovo
7.132 Lextrum (COMSovereign)
7.133 Lime Microsystems
7.134 LIONS Technology
7.135 LITE-ON Technology Corporation
7.136 LS telcom
7.137 LuxCarta
7.138 MantisNet
7.139 Marvell Technology
7.140 Mavenir
7.141 Meta Connectivity
7.142 MicroNova
7.143 Microsoft Corporation
7.144 MikroTik
7.145 MitraStar Technology (Unizyx Holding Corporation)
7.146 MYCOM OSI (Amdocs)
7.147 Nash Technologies
7.148 NEC Corporation
7.149 Net AI
7.150 Netcracker Technology (NEC Corporation)
7.151 NETSCOUT Systems
7.152 Netsia (Argela)
7.153 New H3C Technologies (Tsinghua Unigroup)
7.154 New Postcom Equipment
7.155 Nextivity
7.156 Node-H
7.157 Nokia
7.158 NuRAN Wireless
7.159 NXP Semiconductors
7.160 Oceus Networks
7.161 Omnitele
7.162 Opanga Networks
7.163 Openet (Amdocs)
7.164 P.I. Works
7.165 Parallel Wireless
7.166 Phluido
7.167 Picocom
7.168 Pivotal Commware
7.169 Polte
7.170 Potevio (CETC ? China Electronics Technology Group Corporation)
7.171 Qualcomm
7.172 Quanta Computer
7.173 Qucell Networks (InnoWireless)
7.174 RADCOM
7.175 Radisys (Reliance Industries)
7.176 Rakuten Symphony
7.177 Ranplan Wireless
7.178 Red Hat (IBM)
7.179 RED Technologies
7.180 RIMEDO Labs
7.181 Rivada Networks
7.182 Rohde & Schwarz
7.183 Ruijie Networks
7.184 RunEL
7.185 SageRAN (Guangzhou SageRAN Technology)
7.186 Saguna Networks (COMSovereign)
7.187 Samji Electronics
7.188 Samsung
7.189 Sandvine
7.190 Sercomm Corporation
7.191 Signalwing
7.192 Siklu
7.193 SIRADEL
7.194 Skyvera (TelcoDR)
7.195 SOLiD
7.196 Sooktha
7.197 Spectrum Effect
7.198 SSC (Shared Spectrum Company)
7.199 Star Solutions
7.200 STL (Sterlite Technologies Ltd.)
7.201 Subex
7.202 Sunwave Communications
7.203 Systemics-PAB
7.204 T&W (Shenzhen Gongjin Electronics)
7.205 Tarana Wireless
7.206 TCS (Tata Consultancy Services)
7.207 Tech Mahindra
7.208 Tecore Networks
7.209 Telrad Networks
7.210 TEOCO
7.211 ThinkRF
7.212 TI (Texas Instruments)
7.213 TietoEVRY
7.214 Tropico (CPQD ? Center for Research and Development in Telecommunications, Brazil)
7.215 TTG International
7.216 Tupl
7.217 ULAK Communication
7.218 Vavitel (Shenzhen Vavitel Technology)
7.219 VHT (Viettel High Tech)
7.220 VIAVI Solutions
7.221 VMware
7.222 VNC ? Virtual NetCom (COMSovereign)
7.223 VNL ? Vihaan Networks Limited (Shyam Group)
7.224 WDNA (Wireless DNA)
7.225 WebRadar
7.226 Wind River Systems
7.227 Wipro
7.228 Wiwynn (Wistron Corporation)
7.229 WNC (Wistron NeWeb Corporation)
7.230 XCOM Labs
7.231 Xingtera
7.232 ZaiNar
7.233 Z-Com
7.234 Zeetta Networks
7.235 ZTE
7.236 Zyxel (Unizyx Holding Corporation)

8 Chapter 8: Market Sizing & Forecasts

8.1 SON & Mobile Network Optimization Revenue
8.2 SON Revenue
8.3 SON Revenue by Network Segment
8.3.1 RAN
8.3.2 Mobile Core
8.3.3 Transport (Fronthaul, Midhaul & Backhaul)
8.4 RAN Segment SON Revenue by Architecture: Traditional SON vs. Open RAN RIC, xApps & rApps
8.4.1 Traditional D-SON & C-SON
8.4.1.1 Embedded D-SON Features
8.4.1.2 Third Party C-SON & OSS Platforms
8.4.2 Open RAN RIC, xApps & rApps
8.4.2.1 RIC Platforms
8.4.2.2 Near Real-Time xApps
8.4.2.3 Non Real-Time rApps
8.4.3 Mobile Operators’ In-House SON Tools & Systems
8.5 SON Revenue by Access Network Technology
8.5.1 2G & 3G
8.5.2 LTE
8.5.3 5G NR
8.5.4 Wi-Fi & Others
8.6 SON Revenue by Region
8.7 Conventional Mobile Network Planning & Optimization Revenue
8.8 Conventional Mobile Network Planning & Optimization Revenue by Region
8.9 North America
8.9.1 SON
8.9.2 Conventional Mobile Network Planning & Optimization
8.10 Asia Pacific
8.10.1 SON
8.10.2 Conventional Mobile Network Planning & Optimization
8.11 Europe
8.11.1 SON
8.11.2 Conventional Mobile Network Planning & Optimization
8.12 Middle East & Africa
8.12.1 SON
8.12.2 Conventional Mobile Network Planning & Optimization
8.13 Latin & Central America
8.13.1 SON
8.13.2 Conventional Mobile Network Planning & Optimization

9 Chapter 9: Conclusion & Strategic Recommendations

9.1 Why is the Market Poised to Grow?
9.2 Future Roadmap: 2022 ? 2030
9.2.1 2022 ? 2025: Transition From Traditional SON to RIC Platforms, xApps & rApps
9.2.2 2026 ? 2029: Commercial Maturity of Advanced AI/ML-Based SON Implementations
9.2.3 2030 & Beyond: Towards Zero-Touch 5G & 6G Network Automation
9.3 Competitive Industry Landscape: Acquisitions, Alliances & Consolidation
9.4 The C-SON Versus D-SON Debate
9.5 Evaluating the Practical Benefits of SON
9.6 Prospects of Open RAN Standards-Compliant RIC Platforms, xApps & rApps
9.7 End-to-End SON: From the RAN to the Core & Transport Domains
9.8 Growing Adoption of SON Capabilities for Wi-Fi & Non-3GPP Access Technologies
9.9 The Importance of AI & ML-Driven SON Algorithms
9.10 Improving End User Experience With QoE-Based Optimization
9.11 Enabling Network Slicing & Advanced 5G Capabilities
9.12 Greater Focus on Self-Protection
9.13 Addressing IoT Optimization
9.14 Managing Shared & Unlicensed Spectrum
9.15 Easing the Deployment of Private 4G/5G Networks
9.16 Assessing the Impact of SON on Optimization & Field Engineers
9.17 Strategic Recommendations
9.17.1 SON Solution Providers
9.17.2 Mobile Operators

List of Companies Mentioned

The following companies and organizations have been reviewed, discussed or mentioned in the report:

1. 3GPP (Third Generation Partnership Project)
2. Aarna Networks
3. Abside Networks
4. Accedian
5. Accelleran
6. Accuver
7. Actiontec Electronics
8. ADTRAN
9. AI-LINK
10. AirHop Communications
11. Airspan Networks
12. AiVader
13. Aliniant
14. Allot
15. Alpha Networks
16. Alphabet
17. Altiostar
18. Amazon
19. Amdocs
20. America Movil
21. Anktion (Fujian) Technology
22. Anritsu
23. Arcadyan Technology Corporation
24. Argela
25. Aria Networks
26. ARIB (Association of Radio Industries and Businesses, Japan)
27. ArrayComm (Chengdu ArrayComm Wireless Technologies)
28. Artemis Networks
29. Artiza Networks
30. Arukona
31. Askey Computer Corporation
32. ASOCS
33. Aspire Technology
34. ASTRI (Hong Kong Applied Science and Technology Research Institute)
35. ASUS (ASUSTeK Computer)
36. AT&T
37. ATDI
38. Atesio
39. ATIS (Alliance for Telecommunications Industry Solutions)
40. Atrinet
41. Aurora Insight
42. Aviat Networks
43. AWS (Amazon Web Services)
44. Azcom Technology
45. Baicells
46. BandwidthX
47. beCloud (Belarusian Cloud Technologies)
48. Beeline Russia
49. Bell Canada
50. Betacom
51. Bharti Airtel
52. BLiNQ Networks
53. Blu Wireless
54. Blue Danube Systems
55. BT Group
56. BTC (Botswana Telecommunications Corporation)
57. BTI Wireless
58. B-Yond
59. CableFree (Wireless Excellence)
60. CableLabs
61. Cambium Networks
62. Capgemini Engineering
63. Casa Systems
64. CBNG (Cambridge Broadband Networks Group)
65. CCI (Communication Components Inc.)
66. CCS (Cambridge Communication Systems)
67. CCSA (China Communications Standards Association)
68. Celfinet (Cyient)
69. CellOnyx
70. Cellwize
71. Celona
72. CelPlan Technologies
73. CETC (China Electronics Technology Group Corporation)
74. CGI
75. Chengdu NTS
76. China Mobile
77. CICT ? China Information and Communication Technology Group (China Xinke Group)
78. Ciena Corporation
79. CIG (Cambridge Industries Group)
80. Cisco Systems
81. Claro Colombia
82. Cohere Technologies
83. Comarch
84. Comba Telecom
85. CommAgility
86. CommScope
87. Compal Electronics
88. COMSovereign
89. Contela
90. Continual
91. Corning
92. CPQD (Center for Research and Development in Telecommunications, Brazil)
93. Creanord
94. Datang Telecom Technology & Industry Group
95. DeepSig
96. Dell Technologies
97. DGS (Digital Global Systems)
98. Digitata
99. DISH Network Corporation
100. D-Link Corporation
101. DSA (Dynamic Spectrum Alliance)
102. DT (Deutsche Telekom)
103. DZS
104. ECE (European Communications Engineering)
105. EDX Wireless
106. EE
107. eino
108. Elisa
109. Elisa Polystar
110. Equiendo
111. Ericsson
112. Errigal
113. ETRI (Electronics & Telecommunications Research Institute, South Korea)
114. ETSI (European Telecommunications Standards Institute)
115. EXFO
116. Fairspectrum
117. Federated Wireless
118. FiberHome Technologies
119. Flash Networks
120. Forsk
121. Foxconn (Hon Hai Technology Group)
122. Fraunhofer HHI (Heinrich Hertz Institute)
123. Fujitsu
124. Gemtek Technology
125. GENEViSiO
126. GenXComm
127. Gigamon
128. GigaTera Communications
129. Globe Telecom
130. Google
131. Groundhog Technologies
132. Guavus
133. HCL Technologies
134. Helios (Fujian Helios Technologies)
135. HFR Networks
136. Highstreet Technologies
137. Hitachi
138. Hitachi Kokusai Electric
139. Hitachi Vantara
140. HPE (Hewlett Packard Enterprise)
141. HSC (Hughes Systique Corporation)
142. Huawei
143. IBM
144. iBwave Solutions
145. iConNext
146. Infinera
147. Infosys
148. InfoVista
149. Inmanta
150. Innovile
151. InnoWireless
152. Intel Corporation
153. InterDigital
154. Intracom Telecom
155. Inventec Corporation
156. ISCO International
157. IS-Wireless
158. ITRI (Industrial Technology Research Institute, Taiwan)
159. JMA Wireless
160. JRC (Japan Radio Company)
161. Juniper Networks
162. KDDI Corporation
163. Key Bridge Wireless
164. Keysight Technologies
165. Kleos
166. KMW
167. KPN
168. Kumu Networks
169. Kuzey K?br?s Turkcell
170. Kyivstar
171. Lemko Corporation
172. Lenovo
173. Lextrum
174. Liberty Global
175. life:)/BeST (Belarusian Telecommunications Network)
176. lifecell Ukraine
177. Lime Microsystems
178. Linux Foundation
179. LIONS Technology
180. LITE-ON Technology Corporation
181. LS telcom
182. LTT (Libya Telecom & Technology)
183. LuxCarta
184. MantisNet
185. Marvell Technology
186. Mavenir
187. MegaFon
188. Meta Connectivity
189. MicroNova
190. Microsoft Corporation
191. MikroTik
192. MitraStar Technology
193. MYCOM OSI
194. Nash Technologies
195. NEC Corporation
196. Net AI
197. Netcracker Technology
198. NETSCOUT Systems
199. Netsia
200. New H3C Technologies
201. New Postcom Equipment
202. Nextivity
203. NGMN Alliance
204. Node-H
205. Nokia
206. NTT DoCoMo
207. NuRAN Wireless
208. Nutaq Innovation
209. NXP Semiconductors
210. Oceus Networks
211. Omnitele
212. ONF (Open Networking Foundation)
213. OnGo Alliance
214. Ooredoo
215. Ooredoo Algeria
216. Ooredoo Tunisia
217. Opanga Networks
218. Openet
219. Opticoms
220. Optus (Singtel)
221. O-RAN Alliance
222. Orange
223. Orange Spain
224. OSA (OpenAirInterface Software Alliance)
225. P.I. Works
226. Parallel Wireless
227. Phluido
228. Picocom
229. Pivotal Commware
230. PLDT
231. Polte
232. Potevio
233. QNAP Systems
234. Qualcomm
235. Quanta Computer
236. Qucell Networks
237. RADCOM
238. Radisys
239. Rakuten Mobile
240. Rakuten Symphony
241. Ranplan Wireless
242. Red Hat
243. RED Technologies
244. Redline Communications
245. Reliance Industries
246. RIMEDO Labs
247. Rivada Networks
248. Rohde & Schwarz
249. Ruijie Networks
250. RunEL
251. SageRAN (Guangzhou SageRAN Technology)
252. Saguna Networks
253. Samji Electronics
254. Samsung
255. Sandvine
256. SCF (Small Cell Forum)
257. Sercomm Corporation
258. Shyam Group
259. Signalwing
260. Siklu
261. Singtel
262. SIRADEL
263. SK Telecom
264. Skyvera (TelcoDR)
265. Smart Communications
266. Smartfren
267. SOLiD
268. Sooktha
269. Spectrum Effect
270. SSC (Shared Spectrum Company)
271. Star Solutions
272. STC (Saudi Telecom Company)
273. STL (Sterlite Technologies Ltd.)
274. Subex
275. Sunwave Communications
276. Systemics-PAB
277. T&W (Shenzhen Gongjin Electronics)
278. Tarana Wireless
279. TCS (Tata Consultancy Services)
280. Tech Mahindra
281. Tecore Networks
282. Telecom Argentina
283. Telefonica Germany
284. Telefonica Group
285. Telkomsel
286. Telrad Networks
287. Telstra
288. TEOCO
289. Thales
290. ThinkRF
291. TI (Texas Instruments)
292. TietoEVRY
293. TIM (Telecom Italia Mobile)
294. TIM Brasil
295. TIP (Telecom Infra Project)
296. TPG Telecom
297. Tropico
298. TSDSI (Telecommunications Standards Development Society, India)
299. Tsinghua Unigroup
300. TTA (Telecommunications Technology Association, South Korea)
301. TTC (Telecommunication Technology Committee, Japan)
302. TTG International
303. Tupl
304. Turkcell
305. ULAK Communication
306. Unizyx Holding Corporation
307. Vasona Networks
308. Vavitel (Shenzhen Vavitel Technology)
309. Verizon Communications
310. VEON
311. VHT (Viettel High Tech)
312. Vi (Vodafone Idea)
313. VIAVI Solutions
314. Virgin Media O2
315. VMware
316. VNC (Virtual NetCom)
317. VNL (Vihaan Networks Limited)
318. Vodafone Germany
319. Vodafone Group
320. Vodafone Ireland
321. Vodafone Italy
322. Vodafone Turkiye
323. WBA (Wireless Broadband Alliance)
324. WDNA (Wireless DNA)
325. WebRadar
326. Wind River Systems
327. WInnForum (Wireless Innovation Forum)
328. Wipro
329. Wireless Telecom Group
330. Wistron Corporation
331. Wiwynn
332. WNC (Wistron NeWeb Corporation)
333. XCOM Labs
334. Xingtera
335. Zain Group
336. Zain Saudi Arabia (Zain KSA)
337. ZaiNar
338. Z-Com
339. Zeetta Networks
340. ZTE
341. Zyxel