Global Telecommunications Tower Market- Industry Analysis and forecast 2027: Fuel Type, Type of Tower, and Installation & Region.

Global Telecommunications Tower Market the size was valued at US$ XX Mn in 2019 and the total revenue is expected to grow at 5.49% through 2020 to 2027, reaching US$ XX Mn. Global Telecommunications Tower Market Global Telecommunications Tower Market Overview: A fast-growing rate of development has led to a surge in the growth as well as the adoption of technology rise in the smartphone penetration because of which there is a development in the annual data usage over wireless networks worldwide. This led to the development of the total economy, especially with respect to rural areas over the facilitation of increasing income. Thus, increased penetration of telecommunications towers in rural & off-grid areas are considered as one of the key driving factors for the development of this market during the forecast period permitting for the creation of jobs & lowering of unemployment rates in such areas. Global Telecommunications Tower Market1 It can be understood from the above fig; the percentage of the urban population worldwide has reached 55 percent. This percentage of urban the population has allowed for the rise in the penetration of telecommunication towers in rural as well as off-grid areas are heavily increasing the demand for telecommunication towers. Also, a rising subscriber base for cellular networks demands a supported communications infrastructure which calls for more tower deployments. Especially in current years, the telecommunication market has been rising rapidly owing to the monumental development in the number of internet users as well as the rising adoption of the smartphone in both established as well as in emerging regions. With the growing number of cell phone subscribers comes the growing number of telecom service providers & leads to the development of public exposure to radio waves from telecommunication towers in general. This has ignited discussion regarding the harmful effects of high-frequency radio waves on both humans and the environment. Globally, there is more emphasis than ever from the public and regulatory pressure to decrease telecom tower energy consumption & therefore it can be suggested that the increased worries for the emission of radiation might restrain the development of the telecom market as they are leading to the opposition of tower deployments. Global towerco penetration by business model: Global Telecommunications Tower Market2 Changing demands in the telecom sector present new opportunities for growth: Today, with data evolution & the imminent launch of next-generation 5G technology taking center point, the next decade holds stimulating new scenarios for towers. Plenty of new opportunities are rising for tower firms to shift their attention from a macro tower concentrated business, towards new business models hinged on fiber, small cells, data centers, Wi-Fi, smart cities & beyond. With strong basics, Indian towers are well located to expand their infrastructure portfolio & tap into adjacencies. Fiber shows potential as the deployment curve is anticipated to increase 1.9x & touch 2.8 Mn cable kilometers in the year 2023. Small cell deployment is an additional exciting opportunity, with outdoor small cell deployment slated to reach ~250,000 by the year2023. Global Telecommunications Tower Market3 Market Outlook—Malaysia: Global Telecommunications Tower Market4 The report covers Renewable and Non-Renewable with detailed analysis Global Telecommunications Tower Market industry with the classifications of the market on the Fuel Type, Type of Tower, Installation & region. Analysis of past market dynamics from 2016 to 2019 is given in the report, which will help readers to benchmark the past trends with current market scenarios with the key players' contribution in it. The report has profiled twenty two key players in the market from different regions. However, the report has considered all market leaders, followers, and new entrants with investors while analyzing the market and estimation the size of the same. The manufacturing environment in each region is different and focus is given on the regional impact on the cost of manufacturing, supply chain, availability of raw materials, labor cost, availability of advanced Plastic Type, trusted vendors are analyzed and the report has come up with recommendations for a future hot spot in five regions. The major country’s policies about manufacturing & Covid 19 impact on the demand-side are covered in the report.

Scope of the Global Telecommunications Tower Market

Global Telecommunications Tower Market5

Global Telecommunications Tower Market, By Region

• North America: o US o Canada • Europe o UK o Germany o France o Spain o Italy o Sweden o CIS countries o Rest of Europe • APAC o China o India o South Korea o Japan o Australia o Rest of APAC o ASEAN  Indonesia  Malaysia  Singapore  Thailand  Vietnam • Middle East & Africa o GCC Countries o South Africa o Rest of MEA • Latin America o Mexico o Brazil o Rest of Latin America

Global Telecommunications Tower Market Key Players

• Bharti Infratel Limited • Helios Towers Africa • American Tower Corporation • SBA Communications Corporation • AT&T Inc. • GTL Infrastructure Ltd. • T-Mobile Towers • Phoenix Tower International • China Tower Corporation • Conduent, Inc. • Kapsch Group • Mitsubishi Heavy Industries Machinery Systems, Ltd. • Siemens Mobility GmbH • Thales Group • Continuum Electroproducts LLP • EFKON GmbH • Neology, Inc. • Verizon Communications Inc., • QuaLiX Information System LLP • SkyToll, a. s. • AT&T Inc • Telstra Corp. Ltd.
Global Telecommunications Tower Market 1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 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: Global Telecommunications Tower Market Size, by Market Value (US$ Mn) 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. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Global Telecommunications Tower Market Analysis and Forecast 7. Global Telecommunications Tower Market Analysis and Forecast, by Fuel Type 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Telecommunications Tower Market Value Share Analysis, by Fuel Type 7.4. Global Telecommunications Tower Market Size (US$ Mn) Forecast, by Fuel Type 7.5. Global Telecommunications Tower Market Analysis, by Fuel Type 8. Global Telecommunications Tower Market Analysis and Forecast, by Type of Tower 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Telecommunications Tower Market Value Share Analysis, by Type of Tower 8.4. Global Telecommunications Tower Market Size (US$ Mn) Forecast, by Type of Tower 8.5. Global Telecommunications Tower Market Analysis, by Type of Tower 8.6. Global Telecommunications Tower Market Attractiveness Analysis, by Type of Tower 9. Global Telecommunications Tower Market Analysis and Forecast, by Installation 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Telecommunications Tower Market Value Share Analysis, by Installation 9.4. Global Telecommunications Tower Market Size (US$ Mn) Forecast, by Installation 9.5. Global Telecommunications Tower Market Analysis, by Installation 9.6. Global Telecommunications Tower Market Attractiveness Analysis, by Installation 10. Global Telecommunications Tower Market Analysis and Forecast, by Region 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global Telecommunications Tower Market Value Share Analysis, by Region 10.4. Global Telecommunications Tower Market Size (US$ Mn) Forecast, by Region 10.5. Global Telecommunications Tower Market Analysis, by Region 11. Global Telecommunications Tower Market Analysis 11.1. Key Findings 11.2. Global Telecommunications Tower Market Overview 11.3. Global Telecommunications Tower Market Forecast, by Fuel Type 11.3.1. Renewable 11.3.2. Non-Renewable 11.4. Global Telecommunications Tower Market Forecast, by Type of Tower 11.4.1. Lattice Tower 11.4.2. Guyed Tower 11.4.3. Monopole Towers 11.4.4. Stealth Towers 11.5. Global Telecommunications Tower Market Forecast, by Installation 11.5.1. Roof top 11.5.2. Ground Based 11.6. Global Telecommunications Tower Market Forecast, by Region 11.6.1. North America 11.6.2. Europe 11.6.3. Asia-Pacific 11.6.4. MEA & Africa 11.6.5. Latin America 11.7. PEST Analysis 11.8. Key Trends 11.9. Key Developments 12. North-America Telecommunications Tower Market Analysis 12.1. Key Findings 12.2. North America Telecommunications Tower Market Forecast, by Fuel Type 12.2.1. Renewable 12.2.2. Non-Renewable 12.3. North America Telecommunications Tower Market Forecast, by Type of Tower 12.3.1. Lattice Tower 12.3.2. Guyed Tower 12.3.3. Monopole Towers 12.3.4. Stealth Towers 12.4. North America Telecommunications Tower Market Forecast, by Installation 12.4.1. Roof top 12.4.2. Ground Based 12.5. North-America Telecommunications Tower Market Forecast, by Country 12.5.1. US 12.5.2. Canada 12.6. US Telecommunications Tower Market Forecast, by Fuel Type 12.6.1. Renewable 12.6.2. Non-Renewable 12.7. US Telecommunications Tower Market Forecast, by Type of Tower 12.7.1. Lattice Tower 12.7.2. Guyed Tower 12.7.3. Monopole Towers 12.7.4. Stealth Towers 12.8. US Telecommunications Tower Market Forecast, by Installation 12.8.1. Roof top 12.8.2. Ground Based 12.9. Canada Telecommunications Tower Market Forecast, by Fuel Type 12.9.1. Renewable 12.9.2. Non-Renewable 12.10. Canada Telecommunications Tower Market Forecast, by Type of Tower 12.10.1. Lattice Tower 12.10.2. Guyed Tower 12.10.3. Monopole Towers 12.10.4. Stealth Towers 12.11. Canada Telecommunications Tower Market Forecast, by Installation 12.11.1. Roof top 12.11.2. Ground Based 12.12. PEST Analysis 12.13. Key Trends 12.14. Key Developments 13. Europe Telecommunications Tower Market Analysis 13.1. Key Findings 13.2. Europe Telecommunications Tower Market Overview 13.3. Europe Telecommunications Tower Market Forecast, by Fuel Type 13.3.1. Renewable 13.3.2. Non-Renewable 13.4. Europe Telecommunications Tower Market Forecast, by Type of Tower 13.4.1. Lattice Tower 13.4.2. Guyed Tower 13.4.3. Monopole Towers 13.4.4. Stealth Towers 13.5. Europe Telecommunications Tower Market Forecast, by Installation 13.5.1. Roof top 13.5.2. Ground Based 13.6. Europe Telecommunications Tower Market Forecast, by Country 13.6.1. UK 13.6.2. France 13.6.3. Germany 13.6.4. Russia 13.6.5. Italy 13.6.6. Rest of Europe 13.7. UK Telecommunications Tower Market Forecast, by Fuel Type 13.7.1. Renewable 13.7.2. Non-Renewable 13.8. UK Telecommunications Tower Market Forecast, by Type of Tower 13.8.1. Lattice Tower 13.8.2. Guyed Tower 13.8.3. Monopole Towers 13.8.4. Stealth Towers 13.9. UK Telecommunications Tower Market Forecast, by Installation 13.9.1. Roof top 13.9.2. Ground Based 13.10. France Telecommunications Tower Market Forecast, by Fuel Type 13.10.1. Renewable 13.10.2. Non-Renewable 13.11. France Telecommunications Tower Market Forecast, by Type of Tower 13.11.1. Lattice Tower 13.11.2. Guyed Tower 13.11.3. Monopole Towers 13.11.4. Stealth Towers 13.12. France Telecommunications Tower Market Forecast, by Installation 13.12.1. Roof top 13.12.2. Ground Based 13.13. Germany Telecommunications Tower Market Forecast, by Fuel Type 13.13.1. Renewable 13.13.2. Non-Renewable 13.14. Germany Telecommunications Tower Market Forecast, by Type of Tower 13.14.1. Lattice Tower 13.14.2. Guyed Tower 13.14.3. Monopole Towers 13.14.4. Stealth Towers 13.15. Germany Telecommunications Tower Market Forecast, by Installation 13.15.1. Roof top 13.15.2. Ground Based 13.16. Russia Telecommunications Tower Market Forecast, by Fuel Type 13.16.1. Renewable 13.16.2. Non-Renewable 13.17. Russia Telecommunications Tower Market Forecast, by Type of Tower 13.17.1. Lattice Tower 13.17.2. Guyed Tower 13.17.3. Monopole Towers 13.17.4. Stealth Towers 13.18. Russia Telecommunications Tower Market Forecast, by Installation 13.18.1. Roof top 13.18.2. Ground Based 13.19. Rest of Europe Telecommunications Tower Market Forecast, by Fuel Type 13.19.1. Renewable 13.19.2. Non-Renewable 13.20. Rest of Europe Telecommunications Tower Market Forecast, by Type of Tower 13.20.1. Lattice Tower 13.20.2. Guyed Tower 13.20.3. Monopole Towers 13.20.4. Stealth Towers 13.21. Rest of Europe Telecommunications Tower Market Forecast, by Installation 13.21.1. Roof top 13.21.2. Ground Based 13.22. PEST Analysis 13.23. Key Trends 13.24. Key Developments 14. Asia-Pacific Telecommunications Tower Market Analysis 14.1. Key Findings 14.2. Asia-Pacific Telecommunications Tower Market Overview 14.3. Asia-Pacific Telecommunications Tower Market Forecast, by Fuel Type 14.3.1. Renewable 14.3.2. Non-Renewable 14.4. Asia-Pacific Telecommunications Tower Market Forecast, by Type of Tower 14.4.1. Lattice Tower 14.4.2. Guyed Tower 14.4.3. Monopole Towers 14.4.4. Stealth Towers 14.5. Asia-Pacific Telecommunications Tower Market Forecast, by Installation 14.5.1. Roof top 14.5.2. Ground Based 14.6. Asia-Pacific Telecommunications Tower Market Forecast, by Country 14.6.1. China 14.6.2. India 14.6.3. Japan 14.6.4. Malaysia 14.6.5. Indonesia 14.6.6. Rest of Asia-Pacific 14.7. China Telecommunications Tower Market Forecast, by Fuel Type 14.7.1. Renewable 14.7.2. Non-Renewable 14.8. China Telecommunications Tower Market Forecast, by Type of Tower 14.8.1. Lattice Tower 14.8.2. Guyed Tower 14.8.3. Monopole Towers 14.8.4. Stealth Towers 14.9. China Telecommunications Tower Market Forecast, by Installation 14.9.1. Roof top 14.9.2. Ground Based 14.10. India Telecommunications Tower Market Forecast, by Fuel Type 14.10.1. Renewable 14.10.2. Non-Renewable 14.11. India Telecommunications Tower Market Forecast, by Type of Tower 14.11.1. Lattice Tower 14.11.2. Guyed Tower 14.11.3. Monopole Towers 14.11.4. Stealth Towers 14.12. India Telecommunications Tower Market Forecast, by Installation 14.12.1. Roof top 14.12.2. Ground Based 14.13. Japan Telecommunications Tower Market Forecast, by Fuel Type 14.13.1. Renewable 14.13.2. Non-Renewable 14.14. Japan Telecommunications Tower Market Forecast, by Type of Tower 14.14.1. Lattice Tower 14.14.2. Guyed Tower 14.14.3. Monopole Towers 14.14.4. Stealth Towers 14.15. Japan Telecommunications Tower Market Forecast, by Installation 14.15.1. Roof top 14.15.2. Ground Based 14.16. ASEAN Telecommunications Tower Market Forecast, by Fuel Type 14.16.1. Renewable 14.16.2. Non-Renewable 14.17. ASEAN Telecommunications Tower Market Forecast, by Type of Tower 14.17.1. Lattice Tower 14.17.2. Guyed Tower 14.17.3. Monopole Towers 14.17.4. Stealth Towers 14.18. ASEAN Telecommunications Tower Market Forecast, by Installation 14.18.1. Roof top 14.18.2. Ground Based 14.19. Rest of APAC Telecommunications Tower Market Forecast, by Fuel Type 14.19.1. Renewable 14.19.2. Non-Renewable 14.20. Rest of APAC Telecommunications Tower Market Forecast, by Type of Tower 14.20.1. Lattice Tower 14.20.2. Guyed Tower 14.20.3. Monopole Towers 14.20.4. Stealth Towers 14.21. Rest of APAC Telecommunications Tower Market Forecast, by Installation 14.21.1. Roof top 14.21.2. Ground Based 14.22.  PEST Analysis 14.23. Key Trends 14.24. Key Developments 15. MEA & Africa Telecommunications Tower Market Analysis 15.1. Key Findings 15.2. MEA &Africa Telecommunications Tower Market Overview 15.3. MEA &Africa Telecommunications Tower Market Forecast, by Fuel Type 15.3.1. Renewable 15.3.2. Non-Renewable 15.4. MEA &Africa Telecommunications Tower Market Forecast, by Type of Tower 15.4.1. Lattice Tower 15.4.2. Guyed Tower 15.4.3. Monopole Towers 15.4.4. Stealth Towers 15.5. MEA &Africa Telecommunications Tower Market Forecast, by Installation 15.5.1. Roof top 15.5.2. Ground Based 15.6. MEA &Africa Telecommunications Tower Market Forecast, by Country 15.6.1. GCC 15.6.2. South Africa 15.6.3. Rest of MEA & Africa 15.7. GCC Telecommunications Tower Market Forecast, by Fuel Type 15.7.1. Renewable 15.7.2. Non-Renewable 15.8. GCC Telecommunications Tower Market Forecast, by Type of Tower 15.8.1. Lattice Tower 15.8.2. Guyed Tower 15.8.3. Monopole Towers 15.8.4. Stealth Towers 15.9. GCC Telecommunications Tower Market Forecast, by Installation 15.9.1. Roof top 15.9.2. Ground Based 15.10. South Africa Telecommunications Tower Market Forecast, by Fuel Type 15.10.1. Renewable 15.10.2. Non-Renewable 15.11. South Africa Telecommunications Tower Market Forecast, by Type of Tower 15.11.1. Lattice Tower 15.11.2. Guyed Tower 15.11.3. Monopole Towers 15.11.4. Stealth Towers 15.12. South Africa Telecommunications Tower Market Forecast, by Installation 15.12.1. Roof top 15.12.2. Ground Based 15.13. Rest of MEA &Africa Telecommunications Tower Market Forecast, by Fuel Type 15.13.1. Renewable 15.13.2. Non-Renewable 15.14. Rest of MEA &Africa Telecommunications Tower Market Forecast, by Type of Tower 15.14.1. Lattice Tower 15.14.2. Guyed Tower 15.14.3. Monopole Towers 15.14.4. Stealth Towers 15.15. Rest of MEA &Africa Telecommunications Tower Market Forecast, by Installation 15.15.1. Roof top 15.15.2. Ground Based 15.16. PEST Analysis 15.17. Key Trends 15.18. Key Developments 16. Latin America Telecommunications Tower Market Analysis 16.1. Key Findings 16.2. Latin America Telecommunications Tower Market Overview 16.3. Latin America Telecommunications Tower Market Forecast, by Fuel Type 16.3.1. Renewable 16.3.2. Non-Renewable 16.4. Latin America Telecommunications Tower Market Forecast, by Type of Tower 16.4.1. Lattice Tower 16.4.2. Guyed Tower 16.4.3. Monopole Towers 16.4.4. Stealth Towers 16.5. Latin America Telecommunications Tower Market Forecast, by Installation 16.5.1. Roof top 16.5.2. Ground Based 16.6. Latin America Telecommunications Tower Market Forecast, by Country 16.6.1. Mexico 16.6.2. Brazil 16.6.3. Rest of Latin America 16.7. Mexico Telecommunications Tower Market Forecast, by Fuel Type 16.7.1. Renewable 16.7.2. Non-Renewable 16.8. Mexico Telecommunications Tower Market Forecast, by Type of Tower 16.8.1. Lattice Tower 16.8.2. Guyed Tower 16.8.3. Monopole Towers 16.8.4. Stealth Towers 16.9. Mexico Telecommunications Tower Market Forecast, by Installation 16.9.1. Roof top 16.9.2. Ground Based 16.10. Brazil Telecommunications Tower Market Forecast, by Fuel Type 16.10.1. Renewable 16.10.2. Non-Renewable 16.11. Brazil Telecommunications Tower Market Forecast, by Type of Tower 16.11.1. Lattice Tower 16.11.2. Guyed Tower 16.11.3. Monopole Towers 16.11.4. Stealth Towers 16.12. Brazil Telecommunications Tower Market Forecast, by Installation 16.12.1. Roof top 16.12.2. Ground Based 16.13. Rest of LA Telecommunications Tower Market Forecast, by Fuel Type 16.13.1. Renewable 16.13.2. Non-Renewable 16.14. Rest of LA Telecommunications Tower Market Forecast, by Type of Tower 16.14.1. Lattice Tower 16.14.2. Guyed Tower 16.14.3. Monopole Towers 16.14.4. Stealth Towers 16.15. Rest of LA Telecommunications Tower Market Forecast, by Installation 16.15.1. Roof top 16.15.2. Ground Based 16.16. PEST Analysis 16.17. Key Trends 16.18. Key Developments 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Market Share Analysis, by Region 17.3. Market Share Analysis, by Country 17.4. Competition Matrix 17.4.1. Competitive Benchmarking of key players by price, presence, market share, Raw material and R&D investment 17.4.2. New Raw material Launches and Raw material Enhancements 17.4.2.1. Market Consolidation 17.4.2.2. M&A by Regions, Investment and Raw material 17.4.2.3. M&A Key Players, Forward Integration and Backward Integration 17.5. Company Profiles: Key Players 17.5.1. Bharti Infratel Limited 17.5.2. Helios Towers Africa 17.5.3. American Tower Corporation 17.5.4. SBA Communications Corporation 17.5.5. AT&T Inc. 17.5.6. GTL Infrastructure Ltd. 17.5.7. T-Mobile Towers 17.5.8. Phoenix Tower International 17.5.9. China Tower Corporation 17.5.10. Conduent, Inc. 17.5.11. Kapsch Group 17.5.12. Mitsubishi Heavy Industries Machinery Systems, Ltd. 17.5.13. Siemens Mobility GmbH 17.5.14. Thales Group 17.5.15. Continuum Electroproducts LLP 17.5.16. EFKON GmbH 17.5.17. Neology, Inc. 17.5.18. Verizon Communications Inc., 17.5.19. QuaLiX Information System LLP 17.5.20. SkyToll, a. s. 17.5.21. AT&T Inc 17.5.22. Telstra Corp. Ltd

About This Report

Report ID 83241
Category Information Technology & Telecommunication
Published Date February 2021
No of Pages 189
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