Drones (UAVs) in Solar Power Industry Global Market Outlook 2017 - 2026 - Product Image

Drones (UAVs) in Solar Power Industry Global Market Outlook 2017 - 2026

  • ID: 4375863
  • Report
  • Region: Global
  • 174 pages
  • Inea Consulting Ltd
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FEATURED COMPANIES

  • 3D Robotics
  • Asctec
  • Drone Defence
  • Industrial Skyworks
  • PrecisionHawk
  • Skycatch
  • MORE
This report analyzes global market for drones (UAVs) application in solar power industry regarding market dynamics, technology characteristics, industry structure, innovations and key industry vendors. Through extensive research and discussions with experts in the industry, we have identified a series of market trends that will impact this market over the coming decade.

Solar power industry is developing with fast paces in the past decade and at the end of 2015 almost 291 GW cumulative solar PV power capacity is operational at global level. This means more than 1.6 billion solar PV modules are subject to physical wear out and need regular inspections throughout their lifespan. Considering the harsh environmental conditions faced by many solar power plants and the logistical difficulties of panel inspection, it’s clear that facility maintenance is a constant challenge for solar operations. Unmanned aerial vehicles (UAVs) - commonly known as drones - can help provide quicker, effortless and cost-effective monitoring and maintenance for even the largest of solar farms.

Drones in Solar Power Industry Global Market Outlook 2017 - 2026 is essential reading for you or anyone in with an interest in the rising application and role of drones (UAVs) in solar power industry, explaining how this market will develop over the next ten years. Purchasing this report will aid your company’s ability to recognize important market opportunities and understand the possibilities for investment in this area.

Reasons to buy this market report are, but not limited to:
  • The potential of drones (UAVs) application in solar power industry by regions
  • Over 95 charts, maps, figures and tables
  • Historical market data provided from 1997 to 2016 and forecasts until 2026
  • Development scenario of the global drones (UAVs) market in solar power industry until 2026
  • Drone (UAV) unit cost and services cost in solar power industry 2017
  • Regulatory flight policies at global, regional and country level (44 countries) related to the use of drones (UAVs) in solar power industry
  • Expected revenue forecast from drone (UAV) sales and related services over the next 10 years (2017 – 2026)
  • SWOT Analysis
  • Market dynamics comprising main market drivers, restraints and challenges
  • Drone (UAV) vendors active in solar power plant inspection market (hardware manufacturers)
  • Drone (UAV) inspection services and solutions providers (hardware, optics, sensors, software)
  • Key technologies and innovations as main drivers of drones (UAVs) in solar power industry
  • Investment potential and opportunities
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Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • 3D Robotics
  • Asctec
  • Drone Defence
  • Industrial Skyworks
  • PrecisionHawk
  • Skycatch
  • MORE
FOREWORD
1. METHODOLOGY
1.1. Research Methodology
1.2. Limitations
2. EXECUTIVE SUMMARY
2.1. Introduction
2.2. Market Overview
2.3. Market Forecast Summary
3. MARKET DRIVERS
3.1. Solar Power Plant Inspection
3.1.1. Inspection of PV Modules (Solar Panels) at Utility Scale Solar Power Plants
3.1.2. Inspection of PV Modules (Solar Panels) at Rooftop or Building Integrated (BIPV) Solar Power Plants
3.1.3. Thermography of Solar Power Plants
3.1.4. Degradation and Malfunction of PV Modules (Solar Panels)
3.1.5. Dust Detection and Cleaning of PV Modules (Solar Panels)
3.1.6. Vegetation Monitoring at Solar Power Plants
3.1.7. Inspection and Quality Control in Construction Phase of Solar Power Plants
3.2. Environmental Impact Assessment of Solar Power Plants
3.3. Feasibility Analyses,On-Site Solar Power Plant Evaluations and Technical Due Diligence
3.4. Surveillance and Security of Solar Power Plants
3.5. Global Solar Power Market Development. Current State and Development Perspectives to 2026
3.6. DRONE (UAV) GLOBAL FLIGHT REGULATORY FRAMEWORK OVERVIEW
3.6.1. ICAO REGULATIONS
3.6.2. NORTH AMERICA
3.6.2.1. USA
3.6.2.2. Canada
3.6.3. EUROPE
3.6.3.1. EASA - European Level Regulations
3.6.3.2. Austria
3.6.3.3. Belgium
3.6.3.4. Bulgaria
3.6.3.5. Czech Republic
3.6.3.6. Denmark
3.6.3.7. France
3.6.3.8. Germany
3.6.3.9. Greece
3.6.3.10. Hungary
3.6.3.11. Ireland
3.6.3.12. Italy
3.6.3.13. Netherlands
3.6.3.14. Poland
3.6.3.15. Portugal
3.6.3.16. Romania
3.6.3.17. Russia
3.6.3.18. Serbia
3.6.3.19. Slovakia
3.6.3.20. Spain
3.6.3.21. Sweden
3.6.3.22. Switzerland
3.6.3.23. Turkey
3.6.3.24. Ukraine
3.6.3.25. United Kingdom
3.6.4. ASIA - PACIFIC
3.6.4.1. Australia
3.6.4.2. China
3.6.4.3. Hong Kong
3.6.4.4. India
3.6.4.5. Japan
3.6.4.6. South Korea
3.6.4.7. Thailand
3.6.4.8. Taiwan
3.6.5. LATIN AMERICA
3.6.5.1. Brazil
3.6.5.2. Chile
3.6.5.3. Mexico
3.6.6. MIDDLE EAST
3.6.6.1. Egypt
3.6.6.2. Israel
3.6.6.3. Saudi Arabia
3.6.6.4. United Arab Emirates (UAE)
3.6.7. AFRICA
3.6.7.1. Morocco
3.6.7.2. South Africa
4. MARKET ANALYSIS, TRENDS AND FORECASTS
4.1. Drone (UAV) Unit Cost in Solar Power Industry
4.1.1. Drone (UAV) Unit Cost for Solar Power Plant Inspection
4.1.2. Drone (UAV) Unit Cost for Environmental Impact Assessments of Solar Power Plants
4.1.3. Drone (UAV) Unit Cost for Feasibility analyses, On-site Solar Power Plant Evaluations and Technical Due Diligence
4.1.4. Drone (UAV) Unit Cost for Surveillance and Security of Solar Power Plants
4.2. Drone (UAV) Services Cost in Solar Power Industry
4.2.1. Drone (UAV) Services Cost for Solar Power Plant Inspections
4.2.2. Drone (UAV) Services Cost for Environmental Impact Assessments of Solar Power Plants
4.2.3. Drone (UAV) Services Cost for Feasibility analyses, On-site Solar Power Plant Evaluations and Technical Due Diligence
4.2.4. Drone (UAV) Services Cost for Surveillance and Security of Solar Power Plants
4.3. Global Annual Solar Power Plants Inspected by Drones (UAVs)
4.4. Global Revenue of Drones (UAVs) in Solar Power Industry
4.4.1. Global Cumulative Revenue by Segment and Region
4.4.1.1. Solar Power Plant Inspection
4.4.1.2. Environmental Impact Assessment of Solar Power Plant
4.4.1.3. Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence
4.4.1.4. Surveillance and Security of Solar Power Plants
4.4.2. Global Annual Revenue by Segment and Region
4.4.2.1. Solar Power Plant Inspection
4.4.2.2. Environmental impact assessment of solar power plant
4.4.2.3. Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence
4.4.2.4. Surveillance and security of solar power plants
5. DRONE (UAV) TECHNOLOGY OVERVIEW
5.1. Brief Drone (UAV) Technology Overview
5.2. Comprehensive Configuration of Drone (UAV) for Inspection of Solar Power Plants and Other Associated Services
5.3. Drone (UAV) Guidance, Navigation and Control Systems
5.4. Photogrammetry and LiDAR
5.5. Data Transmission and Data Acquisition
5.6. Payload (Sensors and Optics) Selection for Inspection of Solar Power Plants
5.7. Constraints for Use of Drones (UAVs) for Solar Power Plant Inspection and Other Associated Services
6. KEY INDUSTRY VENDORS COMPETITIVE LANDSCAPE
6.1. Drone (UAV) Vendors Active in Solar Power Market (17 companies included)
6.2. Drone (UAV) Inspection and Associated Services Providers (27 companies included)
6.3. Other Providers of Drone (UAV) Services Related to Solar Power Industry (12 companies included)
7. KEY INNOVATIONS
7.1. Ultra-Light LiDAR and Thermography Systems for Drone (UAV) Applications
7.2. Conter-Drone (Anti-Drone) System Providers
7.3. Top Drone (UAV) Startups and Funding
8. DRONE (UAV) INTEGRATION WITH INTERNET OF THINGS (IOT) AND SMART CITIES
8.1. Drone (UAV) in Solar Power Sector and Integration with Internet of Things (IOT)
8.2. Drone (UAV) in Solar Power Sector and Integration with Smart Cities
9. SWOT ANALYSIS OF DRONES (UAVs) IN SOLAR POWER INDUSTRY
10. RISK ANALYSIS AND RISK MITIGATION
10.1. Safety Risk and Hazard Risk
10.1.1. Phase I – Safety Hazard Identification. Definition of Safety Hazards
10.1.2. Phase II – Drone (UAV) Safety Risk Assessment
10.1.3. Phase III – Drone (UAV) Safety Risk Mitigation
10.1.4. Phase IV – Drone (UAV) Safety Documentation & Management
10.2. Regulatory Risk
10.3. Social Risk
10.4. Hacker’s (Cyber) Attacks and Theft of Drones (UAVs)
10.5. Insurance protection
11. CONCLUSIONS
12. RECOMMENDATIONS
12.1. Recommendations for Owners and Asset Managers of Solar Power Plants
12.2. Recommendations for Drone (UAV) Inspection Companies Targeting Solar Market
13. LIST OF ABBREVIATIONS
14. COMPANY DIRECTORY
15. REFERENCES
16. DISCLAIMER AND COPYRIGHT 174FOREWORD
1. METHODOLOGY
1.1. Research Methodology
1.2. Limitations
2. EXECUTIVE SUMMARY
2.1. Introduction
2.2. Market Overview
2.3. Market Forecast Summary
3. MARKET DRIVERS
3.1. Solar Power Plant Inspection
3.1.1. Inspection of PV Modules (Solar Panels) at Utility Scale Solar Power Plants
3.1.2. Inspection of PV Modules (Solar Panels) at Rooftop or Building Integrated (BIPV) Solar Power Plants
3.1.3. Thermography of Solar Power Plants
3.1.4. Degradation and Malfunction of PV Modules (Solar Panels)
3.1.5. Dust Detection and Cleaning of PV Modules (Solar Panels)
3.1.6. Vegetation Monitoring at Solar Power Plants
3.1.7. Inspection and Quality Control in Construction Phase of Solar Power Plants
3.2. Environmental Impact Assessment of Solar Power Plants
3.3. Feasibility Analyses,On-Site Solar Power Plant Evaluations and Technical Due Diligence
3.4. Surveillance and Security of Solar Power Plants
3.5. Global Solar Power Market Development. Current State and Development Perspectives to 2026
3.6. DRONE (UAV) GLOBAL FLIGHT REGULATORY FRAMEWORK OVERVIEW
3.6.1. ICAO REGULATIONS
3.6.2. NORTH AMERICA
3.6.2.1. USA
3.6.2.2. Canada
3.6.3. EUROPE
3.6.3.1. EASA - European Level Regulations
3.6.3.2. Austria
3.6.3.3. Belgium
3.6.3.4. Bulgaria
3.6.3.5. Czech Republic
3.6.3.6. Denmark
3.6.3.7. France
3.6.3.8. Germany
3.6.3.9. Greece
3.6.3.10. Hungary
3.6.3.11. Ireland
3.6.3.12. Italy
3.6.3.13. Netherlands
3.6.3.14. Poland
3.6.3.15. Portugal
3.6.3.16. Romania
3.6.3.17. Russia
3.6.3.18. Serbia
3.6.3.19. Slovakia
3.6.3.20. Spain
3.6.3.21. Sweden
3.6.3.22. Switzerland
3.6.3.23. Turkey
3.6.3.24. Ukraine
3.6.3.25. United Kingdom
3.6.4. ASIA - PACIFIC
3.6.4.1. Australia
3.6.4.2. China
3.6.4.3. Hong Kong
3.6.4.4. India
3.6.4.5. Japan
3.6.4.6. South Korea
3.6.4.7. Thailand
3.6.4.8. Taiwan
3.6.5. LATIN AMERICA
3.6.5.1. Brazil
3.6.5.2. Chile
3.6.5.3. Mexico
3.6.6. MIDDLE EAST
3.6.6.1. Egypt
3.6.6.2. Israel
3.6.6.3. Saudi Arabia
3.6.6.4. United Arab Emirates (UAE)
3.6.7. AFRICA
3.6.7.1. Morocco
3.6.7.2. South Africa
4. MARKET ANALYSIS, TRENDS AND FORECASTS
4.1. Drone (UAV) Unit Cost in Solar Power Industry
4.1.1. Drone (UAV) Unit Cost for Solar Power Plant Inspection
4.1.2. Drone (UAV) Unit Cost for Environmental Impact Assessments of Solar Power Plants
4.1.3. Drone (UAV) Unit Cost for Feasibility analyses, On-site Solar Power Plant Evaluations and Technical Due Diligence
4.1.4. Drone (UAV) Unit Cost for Surveillance and Security of Solar Power Plants
4.2. Drone (UAV) Services Cost in Solar Power Industry
4.2.1. Drone (UAV) Services Cost for Solar Power Plant Inspections
4.2.2. Drone (UAV) Services Cost for Environmental Impact Assessments of Solar Power Plants
4.2.3. Drone (UAV) Services Cost for Feasibility analyses, On-site Solar Power Plant Evaluations and Technical Due Diligence
4.2.4. Drone (UAV) Services Cost for Surveillance and Security of Solar Power Plants
4.3. Global Annual Solar Power Plants Inspected by Drones (UAVs)
4.4. Global Revenue of Drones (UAVs) in Solar Power Industry
4.4.1. Global Cumulative Revenue by Segment and Region
4.4.1.1. Solar Power Plant Inspection
4.4.1.2. Environmental Impact Assessment of Solar Power Plant
4.4.1.3. Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence
4.4.1.4. Surveillance and Security of Solar Power Plants
4.4.2. Global Annual Revenue by Segment and Region
4.4.2.1. Solar Power Plant Inspection
4.4.2.2. Environmental impact assessment of solar power plant
4.4.2.3. Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence
4.4.2.4. Surveillance and security of solar power plants
5. DRONE (UAV) TECHNOLOGY OVERVIEW
5.1. Brief Drone (UAV) Technology Overview
5.2. Comprehensive Configuration of Drone (UAV) for Inspection of Solar Power Plants and Other Associated Services
5.3. Drone (UAV) Guidance, Navigation and Control Systems
5.4. Photogrammetry and LiDAR
5.5. Data Transmission and Data Acquisition
5.6. Payload (Sensors and Optics) Selection for Inspection of Solar Power Plants
5.7. Constraints for Use of Drones (UAVs) for Solar Power Plant Inspection and Other Associated Services
6. KEY INDUSTRY VENDORS COMPETITIVE LANDSCAPE
6.1. Drone (UAV) Vendors Active in Solar Power Market (17 companies included)
6.2. Drone (UAV) Inspection and Associated Services Providers (27 companies included)
6.3. Other Providers of Drone (UAV) Services Related to Solar Power Industry (12 companies included)
7. KEY INNOVATIONS
7.1. Ultra-Light LiDAR and Thermography Systems for Drone (UAV) Applications
7.2. Conter-Drone (Anti-Drone) System Providers
7.3. Top Drone (UAV) Startups and Funding
8. DRONE (UAV) INTEGRATION WITH INTERNET OF THINGS (IOT) AND SMART CITIES
8.1. Drone (UAV) in Solar Power Sector and Integration with Internet of Things (IOT)
8.2. Drone (UAV) in Solar Power Sector and Integration with Smart Cities
9. SWOT ANALYSIS OF DRONES (UAVs) IN SOLAR POWER INDUSTRY
10. RISK ANALYSIS AND RISK MITIGATION
10.1. Safety Risk and Hazard Risk
10.1.1. Phase I – Safety Hazard Identification. Definition of Safety Hazards
10.1.2. Phase II – Drone (UAV) Safety Risk Assessment
10.1.3. Phase III – Drone (UAV) Safety Risk Mitigation
10.1.4. Phase IV – Drone (UAV) Safety Documentation & Management
10.2. Regulatory Risk
10.3. Social Risk
10.4. Hacker’s (Cyber) Attacks and Theft of Drones (UAVs)
10.5. Insurance protection
11. CONCLUSIONS
12. RECOMMENDATIONS
12.1. Recommendations for Owners and Asset Managers of Solar Power Plants
12.2. Recommendations for Drone (UAV) Inspection Companies Targeting Solar Market
13. LIST OF ABBREVIATIONS
14. COMPANY DIRECTORY
15. REFERENCES
16. DISCLAIMER AND COPYRIGHT 174MAP 1: World Lighting Flashes Map: 2017, NASA
MAP 2: Restricted (No Fly) Drone (UAV) Zones in North America: 2017
MAP 3: Restricted (No Fly) Drone (UAV) Zones in Europe: 2017
MAP 4: Restricted (No Fly) Drone (UAV) Zones in Asia - Pacific: 2017
MAP 5: Restricted (No Fly) Drone (UAV) Zones in Latin America: 2017
MAP 6: Restricted (No Fly) Drone (UAV) Zones in South Africa: 2017

Figure 1: Aerial Drone (UAV) Inspection of Solar Power Plant
Figure 2: Aerial Thermography Image of Solar Power Plant
Figure 3: Defect Area in PV Module (Solar Panel) Detected with Drone (UAV) Aerial Thermography
Figure 4: Damage in PV Module (Solar Panel) from Overheat

Chart 1: Global Cumulative Solar Modules Installed and Available for Inspection by Drones (in Million Units): 2017 – 2026; Source: RENEWABLE MARKET WATCHTM
Chart 2: NYSE Bloomberg Global Solar Energy Index 2017
Chart 3: Global Cumulative Installed Photovoltaic (solar PV) capacity 2000 ÷ 2016 in MW
Chart 4: European annual photovoltaic market forecast 2000 - 2026 (in MW), SolarPower Europe, RENEWABLE MARKET WATCHTM
Chart 5: Global Rooftop Photovoltaic Development Scenario 2012 - 2026
Chart 6: Top 10 Countries by Installed Cumulative Solar Capacity in 2016
Chart 7: Global Rooftop Photovoltaic Development Scenario by Main World Regions 2012 - 2026
Chart 8: Global annual PV market forecast 2000 - 2026 (in MW), RENEWABLE MARKET WATCHTM
Chart 9: World Installed Renewable Energy Capacity 2012 - 2040 in GW; IEA World Energy Outlook 2014
Chart 10: Global Annual Solar Modules Installed and Available for Inspection by Drones (UAVs) by Region (in Million Units): 2017 – 2026
Chart 11: Global Annual Solar Modules Inspected by Drones (UAVs) by Region (in Million Units): 2017 – 2026
Chart 12: Cumulative Solar Modules Quantified by Country (in Million Units), North America: 2016
Chart 13: Cumulative Solar Modules Quantified by Country (in Million Units), Europe: 2016
Chart 14: Cumulative Solar Modules Quantified by Country (in Million Units), Asia – Pacific: 2016
Chart 15: Global Cumulative Revenue of Drones (UAVs) in Solar Power Industry by Region (in Millions USD): 2017-2026
Chart 16: Global Cumulative Revenue for Drone (UAV) Units and Services for Solar Power Plants by Region (in Millions USD): 2017-2026
Chart 17: Global Cumulative Revenue for Drone (UAV) Units and Services for Environmental Impact Assessment of Solar Power Plants by Region (in Millions USD): 2017-2026
Chart 18: Global Cumulative Revenue for Drone (UAV) Units and Services for Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence by Region (in Millions USD): 2017-2026
Chart 19: Global Cumulative Revenue for Drone (UAV) Units and Services for Surveillance and Security of Solar Power Plants by Region (in Millions USD): 2017-2026
Chart 20: Global Annual Revenue of Drones (UAVs) in Solar Power Industry by Region (in Millions USD): 2017-2026
Chart 21: Global Annual Revenue for Drone (UAV) Units and Services for Solar Power Plants Inspection by Region (in Millions USD): 2017-2026
Chart 22: Global Annual Revenue for Drone (UAV) Units and Services for Environmental Impact Assessment of Solar Power Plants by Region (in Millions USD): 2017-2026
Chart 23: Global Annual Revenue for Drone (UAV) Units and Services for Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence by Region (in Millions USD): 2017-2026
Chart 24: Global Annual Revenue for Drone (UAV) Units and Services for Surveillance and Security of Solar Power Plants by Region (in Millions USD): 2017-2026
Chart 25: Drone (UAV) Investment Activity 2012 - 2016
Chart 26: Drone (UAV) Safety Management Process

Table 1: Flight classification of drone (UAV) types in USA
Table 2: Flight classification of drone (UAV) types in Canada
Table 3: Drone (UAV) Risk Categories: EASA 2015
Table 4: Flight classification of drone (UAV) types in Austria
Table 5: Flight classification of drone (UAV) types in Belgium
Table 6: Flight classification of drone (UAV) types in Bulgaria
Table 7: Flight classification of drone (UAV) types in Czech Republic
Table 8: Flight classification of drone (UAV) types in Denmark
Table 9: Flight classification of drone (UAV) types in France
Table 10: Flight classification of drone (UAV) types in Germany
Table 11: Flight classification of drone (UAV) types in Greece
Table 12: Flight classification of drone (UAV) types in Hungary
Table 13: Flight classification of drone (UAV) types in Ireland
Table 14: Flight classification of drone (UAV) types in Italy
Table 15: Flight classification of drone (UAV) types in Netherlands
Table 16: Flight classification of drone (UAV) types in Poland
Table 17: Flight classification of drone (UAV) types in Portugal
Table 18: Flight classification of drone (UAV) types in Romania
Table 19: Flight classification of drone (UAV) types in Russia
Table 20: Flight classification of drone (UAV) types in Serbia
Table 21: Flight classification of drone (UAV) types in Slovakia
Table 22: Flight classification of drone (UAV) types in Spain
Table 23: Flight classification of drone (UAV) types in Sweden
Table 24: Flight classification of drone (UAV) types in Switzerland
Table 25: Flight classification of drone (UAV) types in Turkey
Table 26: Flight classification of drone (UAV) types in Ukraine
Table 27: Flight classification of drone (UAV) types in the United Kingdom
Table 28: Flight classification of drone (UAV) types in Australia
Table 29: Flight classification of drone (UAV) types in China
Table 30: Flight classification of drone (UAV) types in Hong Kong
Table 31: Flight classification of drone (UAV) types in India
Table 32: Flight classification of drone (UAV) types in Japan
Table 33: Flight classification of drone (UAV) types in South Korea
Table 34: Flight classification of drone (UAV) types in Thailand
Table 35: Flight classification of drone (UAV) types in Taiwan
Table 36: Flight classification of drone (UAV) types in Brazil
Table 37: Flight classification of drone (UAV) types in Chile
Table 38: Flight classification of drone (UAV) types in Mexico
Table 39: Flight classification of drone (UAV) types in Egypt
Table 40: Flight classification of drone (UAV) types in Israel
Table 41: Flight classification of drone (UAV) types in Saudi Arabia
Table 42: Flight classification of drone (UAV) types in United Arab Emirates (UAE)
Table 43: Flight classification of drone (UAV) types in Morocco
Table 44: Flight classification of drone (UAV) types in South Africa
Table 45: Drone (UAV) Unit Cost for Solar Power Plant Inspection in 2017
Table 46: Drone (UAV) Unit Cost for Environmental Impact Assessment of Solar Power Plants in 2017
Table 47: Drone (UAV) Unit Cost for Feasibility analyses, On-site Solar Power Plant Evaluation and Technical Due Diligence in 2017
Table 48: Drone (UAV) Unit Cost for Surveillance and Security of Solar Power Plants in 2017
Table 49: Drone (UAV) Services Cost for Solar Power Plant Inspection in 2017
Table 50: Drone (UAV) Services Cost for Environmental Impact Assessment of Solar Power Plants in 2017
Table 51: Drone (UAV) Services Cost for Feasibility analyses, On-site Solar Power Plants Evaluation and Technical Due Diligence in 2017
Table 52: Drone (UAV) Services Cost for Surveillance and Security of Solar Power Plants in 2017
Table 53: Top 10 Early Stage Drone Startups
Table 54: SWOT Analysis of Drones (UAVs) in Solar Power Industry
Table 55: Phases of Drone (UAV) Safety Risk Assessment
Table 56: Drone (UAV) Safety Risk Probability
Table 57: Drone (UAV) Safety Risk Severity
Table 58: Drone (UAV) Safety Risk Matrix I
Table 59: Drone (UAV) Safety Risk Matrix II
Table 60: Drone (UAV) Safety Risk Mitigation 152
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