Global Self-Organizing Network Market – Global Industry Analysis and Forecast (2018-2026) – By Offering, Architecture, Network, Network Technology, and Geography

Global Self-Organizing Network Market – Global Industry Analysis and Forecast (2018-2026) – By Offering, Architecture, Network, Network Technology, and Geography

Market Scenario

Global self-organizing network market was valued at US$ 3.45 Bn in 2017 and is expected to reach US$ 8.33 Bn by 2026, at a CAGR of 11.65% during a forecast period. Global Self-Organizing Network Market Global self-organizing networks basically aim to decrease network operator’s efforts, by automating network management processes. Self-organizing network market offers numerous benefits, for instance, effective network traffic management, cheap operation cost, enhanced customer satisfaction, and effective load balancing. The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding self-organizing network market dynamics, structure by identifying and analyzing the market segments by offering, architecture, network, network technology, and region and, project the global market size. Further, report also focuses on competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTER’s analysis, SWOT analysis to address question of shareholders to prioritizing the efforts and investment in near future to particular market segment. The high demand for wireless connectivity, along with the need to manage the rising network complexity with the growing number of small phone users are the key factors contributing to the growth of the self-organizing network (SON) market. Rapid uptake in mobile subscriptions primarily in developing countries is significantly boosting the market growth and providing huge opportunities for global self-organizing network market. However, high initial investment involved in self-organizing networks implementation is limiting the growth of the market. Additionally, security concerns with the implementation of open application programming interfaces (APIs) are hampering the market growth. The service segment is estimated to lead the self-organizing network market during the forecast period due to the fact that once the software is deployed in a network, it needs only maintenance and updating services. As the lifecycle of any self-organizing network software is long, several companies implementing the self-organizing network software into a multi-million dollar, long-term service contracts. 5G is projected to grow at the highest CAGR during the forecast period. 5G is 1,000 times faster than 4G, which would dominate to a significant increase in the data transfer in the network and poised to rise network-related issues at users' end. The self-organizing network will support the launch of 5G technology with minimal failures in the network infrastructure. Centralized (C-SON) architecture is the most popular and widely accepted amongst network operators. However, the hybrid (H-SON) is likely to witness highest growth during the forecast period owing to it combines the features provided by Distributed (D-SON), such as optimization and real-time response in a complex network arrangement. North America led the global self-organizing network market owing to the early adoption of advanced network technologies mostly in the U.S. and Canada. However, Asia-Pacific is estimated to exhibit the highest growth over the forecast period. The Asia Pacific may witness high mobile data, traffic rate owing to the rising number of planned deployments of LTE networks and upcoming 5G network. Some of the key players in the global self-organizing network market are Telefonaktiebolaget LM Ericsson, NEC Corporation, Cellwize Wireless Technologies Pte Ltd., Airhop Communications, Inc., Amdocs Inc., Nokia Solutions and Networks, Cisco Systems Inc., Huawei Technologies Co., Ltd, Ascom Holding AG, and RadiSys Corporation.

Scope of the Global Self-Organizing Network Market

Global Self-Organizing Network Market by Offering

• Software • Service

Global Self-Organizing Network Market by Architecture

• D-SON • C-SON • H-SON

Global Self-Organizing Network Market by Network

• Core Network • RAN • Backhaul • Wi-Fi

Global Self-Organizing Network Market by Network Technology

• 2G/3G • 4G/LTE • 5G

Global Self-Organizing Network Market by Geography

• North America • Europe • Asia-Pacific • Middle East & Africa • South America

Key Players operating in the Global Self-Organizing Network Market

• Airhop Communications • Airspan • Amdocs • Blinq Networks (Communication Components Inc.) • Bwtech • Casa Systems • Ccs (Cambridge Communication Systems) Ltd. • Cellwize Wireless Technologies • Cisco • Comarch • Commscope • Ericsson • Huawei • NEC • Nokia • P.I. Works • Qualcomm • Rohde & Schwarz • Teoco • Viavi Solutions Global Digital Advertising Market

Table of Contents

Global Self-Organizing Network Market

1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 1.4. Key Questions Answered 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations Used 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary 3.1. Global Self-Organizing Network Market Size, by Market Value (US$ Bn) and Market Volume (Units), by Region 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Market Analysis 4.3.1. Porter’s Analysis 4.3.2. Value Chain Analysis 4.3.3. SWOT Analysis 4.4. Industry Trends 4.5. Emerging Technological and Patent Registration 5. Supply Side and Demand Side Indicators 6. Global Self-Organizing Network Market Analysis and Forecast 6.1. Self-Organizing Network Market Analysis and Forecast 6.2. Self-Organizing Network Market Size & Y-o-Y Growth Analysis 6.2.1. North America 6.2.2. Europe 6.2.3. Asia Pacific 6.2.4. Middle East & Africa 6.2.5. South America 7. Global Self-Organizing Network Market Analysis and Forecast, by Offering 7.1. Introduction and Definition 7.2. Key Findings 7.3. Self-Organizing Network Market Value Share Analysis, by Offering 7.4. Self-Organizing Network Market Size (US$ Bn) Forecast, by Offering 7.5. Self-Organizing Network Market Analysis, by Offering 7.6. Self-Organizing Network Market Attractiveness Analysis, by Offering 8. Global Self-Organizing Network Market Analysis and Forecast, by Network Technology 8.1. Introduction and Definition 8.2. Key Findings 8.3. Self-Organizing Network Market Value Share Analysis, by Network Technology 8.4. Self-Organizing Network Market Size (US$ Bn) Forecast, by Network Technology 8.5. Self-Organizing Network Market Analysis, by Network Technology 8.6. Self-Organizing Network Market Attractiveness Analysis, by Network Technology 9. Global Self-Organizing Network Market Analysis and Forecast, by Architecture 9.1. Introduction and Definition 9.2. Key Findings 9.3. Self-Organizing Network Market Value Share Analysis, by Architecture 9.4. Self-Organizing Network Market Size (US$ Bn) Forecast, by Architecture 9.5. Self-Organizing Network Market Analysis, by Architecture 9.6. Self-Organizing Network Market Attractiveness Analysis, by Architecture 10. Global Self-Organizing Network Market Analysis, by Network 10.1. Self-Organizing Network Market Value Share Analysis, by Network 10.2. Self-Organizing Network Market Size (US$ Bn) Forecast, by Network 10.3. Self-Organizing Network Market Attractiveness Analysis, by Network 11. Global Self-Organizing Network Market Analysis, by Region 11.1. Self-Organizing Network Market Value Share Analysis, by Region 11.2. Self-Organizing Network Market Size (US$ Bn) Forecast, by Region 11.3. Self-Organizing Network Market Attractiveness Analysis, by Region 12. North America Self-Organizing Network Market Analysis 12.1. Introduction and Definition 12.2. Key Findings 12.3. Self-Organizing Network Market Overview 12.4. Self-Organizing Network Market Value Share Analysis, by Offering 12.5. Self-Organizing Network Market Forecast, by Offering 12.5.1. Software 12.5.2. Service 12.6. Self-Organizing Network Market Value Share Analysis, by Network Technology 12.7. Self-Organizing Network Market Forecast, by Network Technology 12.7.1. 2G/3G 12.7.2. 4G/LTE 12.7.3. 5G 12.8. Self-Organizing Network Market Value Share Analysis, by Architecture 12.9. Self-Organizing Network Market Forecast, by Architecture 12.9.1. D-SON 12.9.2. C-SON 12.9.3. H-SON 12.10. Self-Organizing Network Market Value Share Analysis, by Network 12.11. Self-Organizing Network Market Forecast, by Network 12.11.1. Core Network 12.11.2. RAN 12.11.3. Backhaul 12.11.4. Wi-Fi 12.12. North America Self-Organizing Network Market Value Share Analysis, by Country 12.13. North America Self-Organizing Network Market Forecast, by Country 12.13.1. U.S. 12.13.2. Canada 12.14. North America Self-Organizing Network Market Analysis, by Country 12.15. U.S. Self-Organizing Network Market Forecast, by Offering 12.15.1. Software 12.15.2. Service 12.16. U.S. Self-Organizing Network Market Forecast, by Network Technology 12.16.1. 2G/3G 12.16.2. 4G/LTE 12.16.3. 5G 12.17. U.S. Self-Organizing Network Market Forecast, by Architecture 12.17.1. D-SON 12.17.2. C-SON 12.17.3. H-SON 12.18. U.S. Self-Organizing Network Market Forecast, by Network 12.18.1. Core Network 12.18.2. RAN 12.18.3. Backhaul 12.18.4. Wi-Fi 12.19. Canada Self-Organizing Network Market Forecast, by Offering 12.19.1. Software 12.19.2. Service 12.20. Canada Self-Organizing Network Market Forecast, by Network Technology 12.20.1. 2G/3G 12.20.2. 4G/LTE 12.20.3. 5G 12.21. Canada Self-Organizing Network Market Forecast, by Architecture 12.21.1. D-SON 12.21.2. C-SON 12.21.3. H-SON 12.22. Canada Self-Organizing Network Market Forecast, by Network 12.22.1. Core Network 12.22.2. RAN 12.22.3. Backhaul 12.22.4. Wi-Fi 12.23. North America Self-Organizing Network Market Attractiveness Analysis 12.23.1. By Offering 12.23.2. By Network Technology 12.23.3. By Architecture 12.23.4. By Network 12.24. PEST Analysis 13. Europe Self-Organizing Network Market Analysis 13.1. Introduction and Definition 13.2. Key Findings 13.3. Self-Organizing Network Market Overview 13.4. Self-Organizing Network Market Value Share Analysis, by Offering 13.5. Self-Organizing Network Market Forecast, by Offering 13.5.1. Software 13.5.2. Service 13.6. Self-Organizing Network Market Value Share Analysis, by Network Technology 13.7. Self-Organizing Network Market Forecast, by Network Technology 13.7.1. 2G/3G 13.7.2. 4G/LTE 13.7.3. 5G 13.8. Self-Organizing Network Market Value Share Analysis, by Architecture 13.9. Self-Organizing Network Market Forecast, by Architecture 13.9.1. D-SON 13.9.2. C-SON 13.9.3. H-SON 13.10. Self-Organizing Network Market Value Share Analysis, by Network 13.11. Self-Organizing Network Market Forecast, by Network 13.11.1. Core Network 13.11.2. RAN 13.11.3. Backhaul 13.11.4. Wi-Fi 13.12. Europe Self-Organizing Network Market Value Share Analysis, by Country 13.13. Europe Self-Organizing Network Market Forecast, by Country 13.13.1. Germany 13.13.2. U.K. 13.13.3. France 13.13.4. Italy 13.13.5. Spain 13.13.6. Rest of Europe 13.14. Europe Self-Organizing Network Market Analysis, by Country/ Sub-region 13.15. Germany Self-Organizing Network Market Forecast, by Offering 13.15.1. Software 13.15.2. Service 13.16. Germany Self-Organizing Network Market Forecast, by Network Technology 13.16.1. 2G/3G 13.16.2. 4G/LTE 13.16.3. 5G 13.17. Germany Self-Organizing Network Market Forecast, by Architecture 13.17.1. D-SON 13.17.2. C-SON 13.17.3. H-SON 13.18. Germany Self-Organizing Network Market Forecast, by Network 13.18.1. Core Network 13.18.2. RAN 13.18.3. Backhaul 13.18.4. Wi-Fi 13.19. U.K. Self-Organizing Network Market Forecast, by Offering 13.19.1. Software 13.19.2. Service 13.20. U.K. Self-Organizing Network Market Forecast, by Network Technology 13.20.1. 2G/3G 13.20.2. 4G/LTE 13.20.3. 5G 13.21. U.K. Self-Organizing Network Market Forecast, by Architecture 13.21.1. D-SON 13.21.2. C-SON 13.21.3. H-SON 13.22. U.K. Self-Organizing Network Market Forecast, by Network 13.22.1. Core Network 13.22.2. RAN 13.22.3. Backhaul 13.22.4. Wi-Fi 13.23. France Self-Organizing Network Market Forecast, by Offering 13.23.1. Software 13.23.2. Service 13.24. France Self-Organizing Network Market Forecast, by Network Technology 13.24.1. 2G/3G 13.24.2. 4G/LTE 13.24.3. 5G 13.25. France Self-Organizing Network Market Forecast, by Architecture 13.25.1. D-SON 13.25.2. C-SON 13.25.3. H-SON 13.26. France Self-Organizing Network Market Forecast, by Network 13.26.1. Core Network 13.26.2. RAN 13.26.3. Backhaul 13.26.4. Wi-Fi 13.27. Italy Self-Organizing Network Market Forecast, by Offering 13.27.1. Software 13.27.2. Service 13.28. Italy Self-Organizing Network Market Forecast, by Network Technology 13.28.1. 2G/3G 13.28.2. 4G/LTE 13.28.3. 5G 13.29. Italy Self-Organizing Network Market Forecast, by Architecture 13.29.1. D-SON 13.29.2. C-SON 13.29.3. H-SON 13.30. Italy Self-Organizing Network Market Forecast, by Network 13.30.1. Core Network 13.30.2. RAN 13.30.3. Backhaul 13.30.4. Wi-Fi 13.31. Spain Self-Organizing Network Market Forecast, by Offering 13.31.1. Software 13.31.2. Service 13.32. Spain Self-Organizing Network Market Forecast, by Network Technology 13.32.1. 2G/3G 13.32.2. 4G/LTE 13.32.3. 5G 13.33. Spain Self-Organizing Network Market Forecast, by Architecture 13.33.1. D-SON 13.33.2. C-SON 13.33.3. H-SON 13.34. Spain Self-Organizing Network Market Forecast, by Network 13.34.1. Core Network 13.34.2. RAN 13.34.3. Backhaul 13.34.4. Wi-Fi 13.35. Rest of Europe Self-Organizing Network Market Forecast, by Offering 13.35.1. Software 13.35.2. Service 13.36. Rest of Europe Self-Organizing Network Market Forecast, by Network Technology 13.36.1. 2G/3G 13.36.2. 4G/LTE 13.36.3. 5G 13.37. Rest of Europe Self-Organizing Network Market Forecast, by Architecture 13.37.1. D-SON 13.37.2. C-SON 13.37.3. H-SON 13.38. Rest of Europe Self-Organizing Network Market Forecast, by Network 13.38.1. Core Network 13.38.2. RAN 13.38.3. Backhaul 13.38.4. Wi-Fi 13.39. Europe Self-Organizing Network Market Attractiveness Analysis 13.39.1. By Offering 13.39.2. By Network Technology 13.39.3. By Architecture 13.39.4. By Network 13.40. PEST Analysis 14. Asia Pacific Self-Organizing Network Market Analysis 14.1. Introduction and Definition 14.2. Key Findings 14.3. Self-Organizing Network Market Overview 14.4. Self-Organizing Network Market Value Share Analysis, by Offering 14.5. Self-Organizing Network Market Forecast, by Offering 14.5.1. Software 14.5.2. Service 14.6. Self-Organizing Network Market Value Share Analysis, by Network Technology 14.7. Self-Organizing Network Market Forecast, by Network Technology 14.7.1. 2G/3G 14.7.2. 4G/LTE 14.7.3. 5G 14.8. Self-Organizing Network Market Value Share Analysis, by Architecture 14.9. Self-Organizing Network Market Forecast, by Architecture 14.9.1. D-SON 14.9.2. C-SON 14.9.3. H-SON 14.10. Self-Organizing Network Market Value Share Analysis, by Network 14.11. Self-Organizing Network Market Forecast, by Network 14.11.1. Core Network 14.11.2. RAN 14.11.3. Backhaul 14.11.4. Wi-Fi 14.12. Asia Pacific Self-Organizing Network Market Value Share Analysis, by Country 14.13. Asia Pacific Self-Organizing Network Market Forecast, by Country 14.13.1. China 14.13.2. India 14.13.3. Japan 14.13.4. ASEAN 14.13.5. Rest of Asia Pacific 14.14. Asia Pacific Self-Organizing Network Market Analysis, by Country 14.15. China Self-Organizing Network Market Forecast, by Offering 14.15.1. Software 14.15.2. Service 14.16. China Self-Organizing Network Market Forecast, by Network Technology 14.16.1. 2G/3G 14.16.2. 4G/LTE 14.16.3. 5G 14.17. China Self-Organizing Network Market Forecast, by Architecture 14.17.1. D-SON 14.17.2. C-SON 14.17.3. H-SON 14.18. China Self-Organizing Network Market Forecast, by Network 14.18.1. Core Network 14.18.2. RAN 14.18.3. Backhaul 14.18.4. Wi-Fi 14.19. India Self-Organizing Network Market Forecast, by Offering 14.19.1. Software 14.19.2. Service 14.20. India Self-Organizing Network Market Forecast, by Network Technology 14.20.1. 2G/3G 14.20.2. 4G/LTE 14.20.3. 5G 14.21. India Self-Organizing Network Market Forecast, by Architecture 14.21.1. D-SON 14.21.2. C-SON 14.21.3. H-SON 14.22. India Self-Organizing Network Market Forecast, by Network 14.22.1. Core Network 14.22.2. RAN 14.22.3. Backhaul 14.22.4. Wi-Fi 14.23. Japan Self-Organizing Network Market Forecast, by Offering 14.23.1. Software 14.23.2. Service 14.24. Japan Self-Organizing Network Market Forecast, by Network Technology 14.24.1. 2G/3G 14.24.2. 4G/LTE 14.24.3. 5G 14.25. Japan Self-Organizing Network Market Forecast, by Architecture 14.25.1. D-SON 14.25.2. C-SON 14.25.3. H-SON 14.26. Japan Self-Organizing Network Market Forecast, by Network 14.26.1. Core Network 14.26.2. RAN 14.26.3. Backhaul 14.26.4. Wi-Fi 14.27. ASEAN Self-Organizing Network Market Forecast, by Offering 14.27.1. Software 14.27.2. Service 14.28. ASEAN Self-Organizing Network Market Forecast, by Network Technology 14.28.1. 2G/3G 14.28.2. 4G/LTE 14.28.3. 5G 14.29. ASEAN Self-Organizing Network Market Forecast, by Architecture 14.29.1. D-SON 14.29.2. C-SON 14.29.3. H-SON 14.30. ASEAN Self-Organizing Network Market Forecast, by Network 14.30.1. Core Network 14.30.2. RAN 14.30.3. Backhaul 14.30.4. Wi-Fi 14.31. Rest of Asia Pacific Self-Organizing Network Market Forecast, by Offering 14.31.1. Software 14.31.2. Service 14.32. Rest of Asia Pacific Self-Organizing Network Market Forecast, by Network Technology 14.32.1. 2G/3G 14.32.2. 4G/LTE 14.32.3. 5G 14.33. Rest of Asia Pacific Self-Organizing Network Market Forecast, by Architecture 14.33.1. Displays 14.33.2. D-SON 14.33.3. C-SON 14.33.4. H-SON 14.34. Rest of Asia Self-Organizing Network Market Forecast, by Network 14.34.1. Core Network 14.34.2. RAN 14.34.3. Backhaul 14.34.4. Wi-Fi 14.35. Asia Pacific Self-Organizing Network Market Attractiveness Analysis 14.35.1. By Offering 14.35.2. By Network Technology 14.35.3. By Architecture 14.35.4. By Network 14.36. PEST Analysis 15. Middle East & Africa Self-Organizing Network Market Analysis 15.1. Introduction and Definition 15.2. Key Findings 15.3. Self-Organizing Network Market Overview 15.4. Self-Organizing Network Market Value Share Analysis, by Offering 15.5. Self-Organizing Network Market Forecast, by Offering 15.5.1. Software 15.5.2. Service 15.6. Self-Organizing Network Market Value Share Analysis, by Network Technology 15.7. Self-Organizing Network Market Forecast, by Network Technology 15.7.1. 2G/3G 15.7.2. 4G/LTE 15.7.3. 5G 15.8. Self-Organizing Network Market Value Share Analysis, by Architecture 15.9. Self-Organizing Network Market Forecast, by Architecture 15.9.1. D-SON 15.9.2. C-SON 15.9.3. H-SON 15.10. Self-Organizing Network Market Value Share Analysis, by Network 15.11. Self-Organizing Network Market Forecast, by Network 15.11.1. Core Network 15.11.2. RAN 15.11.3. Backhaul 15.11.4. Wi-Fi 15.12. Middle East & Africa Self-Organizing Network Market Value Share Analysis, by Country 15.13. Middle East & Africa Self-Organizing Network Market Forecast, by Country 15.13.1. GCC 15.13.2. South Africa 15.13.3. Rest of Middle East & Africa 15.14. Middle East & Africa Self-Organizing Network Market Analysis, by Country 15.15. GCC Self-Organizing Network Market Forecast, by Offering 15.15.1. Software 15.15.2. Service 15.16. GCC Self-Organizing Network Market Forecast, by Network Technology 15.16.1. 2G/3G 15.16.2. 4G/LTE 15.16.3. 5G 15.17. GCC Self-Organizing Network Market Forecast, by Architecture 15.17.1. D-SON 15.17.2. C-SON 15.17.3. H-SON 15.18. GCC Self-Organizing Network Market Forecast, by Network 15.18.1. Core Network 15.18.2. RAN 15.18.3. Backhaul 15.18.4. Wi-Fi 15.19. South Africa Self-Organizing Network Market Forecast, by Offering 15.19.1. Software 15.19.2. Service 15.20. South Africa Self-Organizing Network Market Forecast, by Network Technology 15.20.1. 2G/3G 15.20.2. 4G/LTE 15.20.3. 5G 15.21. South Africa Self-Organizing Network Market Forecast, by Architecture 15.21.1. D-SON 15.21.2. C-SON 15.21.3. H-SON 15.22. South Africa Self-Organizing Network Market Forecast, by Network 15.22.1. Core Network 15.22.2. RAN 15.22.3. Backhaul 15.22.4. Wi-Fi 15.23. Rest of Middle East & Africa Self-Organizing Network Market Forecast, by Offering 15.23.1. Software 15.23.2. Service 15.24. Rest of Middle East & Africa Self-Organizing Network Market Forecast, by Network Technology 15.24.1. 2G/3G 15.24.2. 4G/LTE 15.24.3. 5G 15.25. Rest of Middle East & Africa Self-Organizing Network Market Forecast, by Architecture 15.25.1. D-SON 15.25.2. C-SON 15.25.3. H-SON 15.26. Rest of Middle East & Africa Self-Organizing Network Market Forecast, by Network 15.26.1. Core Network 15.26.2. RAN 15.26.3. Backhaul 15.26.4. Wi-Fi 15.27. Middle East & Africa Self-Organizing Network Market Attractiveness Analysis 15.27.1. By Offering 15.27.2. By Network Technology 15.27.3. By Architecture 15.27.4. By Network 15.28. PEST Analysis 16. South America Self-Organizing Network Market Analysis 16.1. Introduction and Definition 16.2. Key Findings 16.3. Self-Organizing Network Market Overview 16.4. Self-Organizing Network Market Value Share Analysis, by Offering 16.5. Self-Organizing Network Market Forecast, by Offering 16.5.1. Software 16.5.2. Service 16.6. Self-Organizing Network Market Value Share Analysis, by Network Technology 16.7. Self-Organizing Network Market Forecast, by Network Technology 16.7.1. 2G/3G 16.7.2. 4G/LTE 16.7.3. 5G 16.8. Self-Organizing Network Market Value Share Analysis, by Architecture 16.9. Self-Organizing Network Market Forecast, by Architecture 16.9.1. D-SON 16.9.2. C-SON 16.9.3. H-SON 16.10. Self-Organizing Network Market Value Share Analysis, by Network 16.11. Self-Organizing Network Market Forecast, by Network 16.11.1. Core Network 16.11.2. RAN 16.11.3. Backhaul 16.11.4. Wi-Fi 16.12. South America Self-Organizing Network Market Value Share Analysis, by Country 16.13. South America Self-Organizing Network Market Forecast, by Country 16.13.1. Brazil 16.13.2. Mexico 16.13.3. Rest of South America 16.14. South America Self-Organizing Network Market Analysis, by Country/ Sub-region 16.15. Brazil Self-Organizing Network Market Forecast, by Offering 16.15.1. Software 16.15.2. Service 16.16. Brazil Self-Organizing Network Market Forecast, by Network Technology 16.16.1. 2G/3G 16.16.2. 4G/LTE 16.16.3. 5G 16.17. Brazil Self-Organizing Network Market Forecast, by Architecture 16.17.1. D-SON 16.17.2. C-SON 16.17.3. H-SON 16.18. Brazil Self-Organizing Network Market Forecast, by Network 16.18.1. Core Network 16.18.2. RAN 16.18.3. Backhaul 16.18.4. Wi-Fi 16.19. Mexico Self-Organizing Network Market Forecast, by Offering 16.19.1. Software 16.19.2. Service 16.20. Mexico Self-Organizing Network Market Forecast, by Network Technology 16.20.1. 2G/3G 16.20.2. 4G/LTE 16.20.3. 5G 16.21. Mexico Self-Organizing Network Market Forecast, by Architecture 16.21.1. D-SON 16.21.2. C-SON 16.21.3. H-SON 16.22. Mexico Self-Organizing Network Market Forecast, by Network 16.22.1. Core Network 16.22.2. RAN 16.22.3. Backhaul 16.22.4. Wi-Fi 16.23. Rest of South America Self-Organizing Network Market Forecast, by Offering 16.23.1. Software 16.23.2. Service 16.24. Rest of South America Self-Organizing Network Market Forecast, by Network Technology 16.24.1. 2G/3G 16.24.2. 4G/LTE 16.24.3. 5G 16.25. Rest of South America Self-Organizing Network Market Forecast, by Architecture 16.25.1. D-SON 16.25.2. C-SON 16.25.3. H-SON 16.26. Rest of South America Self-Organizing Network Market Forecast, by Network 16.26.1. Core Network 16.26.2. RAN 16.26.3. Backhaul 16.26.4. Wi-Fi 16.27. South America Self-Organizing Network Market Attractiveness Analysis 16.27.1. By Offering 16.27.2. By Network Technology 16.27.3. By Architecture 16.27.4. By Network 16.28. PEST Analysis 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Competition Matrix 17.3. Company Profiles: Key Players 17.3.1. Airhop Communications 17.3.1.1. Company Overview 17.3.1.2. Financial Overview 17.3.1.3. Business Strategy 17.3.1.4. Recent Developments 17.3.1.5. Development Footprint 17.3.2. Airspan 17.3.3. Amdocs 17.3.4. Blinq Networks (Communication Components Inc.) 17.3.5. Bwtech 17.3.6. Casa Systems 17.3.7. Ccs (Cambridge Communication Systems) Ltd. 17.3.8. Cellwize Wireless Technologies 17.3.9. Cisco 17.3.10. Comarch 17.3.11. Commscope 17.3.12. Ericsson 17.3.13. Huawei 17.3.14. NEC 17.3.15. Nokia 17.3.16. P.I. Works 17.3.17. Qualcomm 17.3.18. Rohde & Schwarz 17.3.19. Teoco 17.3.20. Viavi Solutions 18. Appendix

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Report ID23930
Category Information Technology & Telecommunication
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Published DateJan 2019
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