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Unique market report provides an incisive and reliable overview of drones (UAVs) and robotics in utility grid inspection in Middle East for the period 2017 ÷ 2026...

Update: 1Q 2018
Format: 1 file(s) (PDF report) in English language
Author: Drone Market WatchTM
Pages: 161
Report production №: DMWIN38920171301
Delivery: 24 - 48 hours by e-mail with 100% Money Back Guarantee

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  • This first ever made unique and independent, 160+ page report of Drone Market Watch™ analyzes Middle East market for drones (UAVs) and robotics application in utility grid inspection regarding market dynamics, technology characteristics, industry structure, innovations and key industry vendors. Through extensive research and discussions with experts in the industry, Drone Market Watch™ has identified a series of market trends that will impact this market over the coming decade.
    Since power outages cause substantial financial losses to the producers, distributors and also to the consumers of electric power, it is in the common interest to minimize failures on power lines. Therefore the inspection of electric transmission networks is of great importance for the power industry. It is an expensive and difficult task not only because power lines cover a vast territory, but also because a significant portion of them are located in remote and hazardous environments. Furthermore, for safety reasons, human intervention should be reduced as much as possible. UAVs and robotics offer an attractive cost and time saving option compared to conventional approaches to management of utility gird infrastructure.
    Drones and Robotics in Utility Grid Infrastructure Middle East Market Outlook 2017 ÷ 2026 is essential reading for you or anyone in with an interest in the rising application and role of drones (UAVs) and robotics in utility grid inspection, explaining how this market will develop in Middle East 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. For your convenience we offer opportunity for orders with customized report content. Reasons to buy this market report are, but no limited to:
    • The potential of drones (UAVs) and robotics application in utility grid inspection in Middle East by countries
    • Over 50 charts, maps, figures and tables
    • Historical market data provided from 2000 to 2016 and forecasts until 2026
    • Development scenario of the Middle East drones (UAVs) and robotics market in utility grid inspection until 2026
    • Drone (UAV) unit cost and services cost in utility grid inspection 2017
    • Regulatory flight policies at global and country level related to the use of drones (UAVs) utility grid inspection in Middle East
    • Expected revenue forecast from drone (UAV) and robotics sales and related services in Middle East over the next 10 years (2017 – 2026)
    • SWOT Analysis
    • Market dynamics comprising main market drivers, restraints and challenges
    • Drone (UAV) and robotics vendors active in utility grid infrastructure inspection market (hardware manufacturers) in Middle East
    • Drone (UAV) and robotics inspection services and solutions providers (hardware, optics, sensors, software) in Middle East
    • Key technologies and innovations as main drivers of drones (UAVs) and robotics utility grid inspection industry
    • Investment potential and opportunities

    At next pages you will see the full table of content of this report. To order this report just click on the button "ADD TO CART". Table of contents is referential and may vary upon report updates. If you have any other questions or data requests please do not hesitate to call us on ++44 203 60 80 138 or write an e-mail to orders@dronemarketwatch.com

  • FOREWORD    9
    1.    METHODOLOGY    10
    1.1.    Research Methodology    10
    1.2.    Limitations    11
    2.    EXECUTIVE SUMMARY    12
    2.1.    Introduction    12
    2.2.    Market Overview    12
    2.3.    Market Forecast Summary    13
    3.    MARKET DRIVERS AND CONSTRAINTS    15
    3.1.    Utility Grid Inspection    15
    3.1.1.    Utility Grid Inspection and Condition Monitoring    25
    3.1.2.    Aging Infrastructure Assessment    27
    3.1.3.    Tower (Pole) Inspection    29
    3.1.4.    Storm Damage Assessment    30
    3.1.5.    Power Outage Detection and Response    36
    3.1.6.    Health and Safety Risk Reduction    37
    3.1.7.    Cost Reduction and Optimization    37
    3.1.8.    Inspection in Construction Phase of Utility Grid    38
    3.2.    Vegetation Assessment and Management    38
    3.3.    Feasibility Analyses and Technical Due Diligence    43
    3.4.    Surveillance and Security of Utility Grid    44
    3.5.    Global Electricity Transmission and Distribution Market. Current State and Development Perspectives to 2026    45
    3.6.    Constraints for Use of Drones (UAVs) and Robotics for Utility Grid Inspection and Other Associated Services    61
    3.7.    DRONE (UAV) GLOBAL FLIGHT REGULATORY FRAMEWORK OVERVIEW    64
    3.7.1.    ICAO REGULATIONS    64
    3.7.2.    MIDDLE EAST    68
    3.7.2.1.    Egypt    68
    3.7.2.2.    Israel    69
    3.7.2.3.    Saudi Arabia    70
    3.7.2.4.    United Arab Emirates (UAE)    70
    4.    MARKET ANALYSIS, TRENDS AND FORECASTS    72
    4.1.    Drone (UAV) Unit Cost in Utility Grid Infrastructure in Middle East    73
    4.1.1.    Drone (UAV) Unit Cost for Utility Grid Inspection in Middle East    73
    4.1.2.    Drone (UAV) Unit Cost for Vegetation Assessment and Management in Middle East    73
    4.1.3.    Drone (UAV) Unit Cost for Feasibility Analyses and Technical Due Diligence in Middle East    74
    4.1.4.    Drone (UAV) Unit Cost for Surveillance and Security of Utility Grid Infrastructure in Middle East    74
    4.2.    Drone (UAV) Services Cost in Utility Grid Infrastructure in Middle East    75
    4.2.1.    Drone (UAV) Services Cost for Utility Grid Inspection in Middle East    75
    4.2.2.    Drone (UAV) Services Cost for Vegetation Assessment and Management in Middle East    75
    4.2.3.    Drone (UAV) Services Cost for Feasibility Analyses and Technical Due Diligence in Middle East    76
    4.2.4.    Drone (UAV) Services Cost for Surveillance and Security of Utility Grid Infrastructure in Middle East    76
    4.3.    Annual Grids Length Inspected by Drones (UAVs) and Robotics in Middle East    77
    4.4.    Middle East Revenue of Drones (UAVs) and Robotics in Utility Grid Infrastructure    79
    4.4.1.    Middle East Cumulative Revenue by Segment and Country    79
    4.4.1.1.    Utility Grid Inspection    80
    4.4.1.2.    Vegetation Assessment and Management    81
    4.4.1.3.    Feasibility Analyses and Technical Due Diligence    82
    4.4.1.4.    Surveillance and Security of Utility Grids    83
    4.4.2.    Middle East Annual Revenue by Segment and Country    84
    4.4.2.1.    Utility Grid Inspection    84
    4.4.2.2.    Vegetation Assessment and Management    85
    4.4.2.3.    Feasibility Analyses and Technical Due Diligence    86
    4.4.2.4.    Surveillance and Security of Utility Grids    87
    5.    VALUE CHAIN ANALYSIS OF DRONES (UAVs) AND ROBOTICS IN UTILITY GRID INFRASTRUCTURE    89
    5.1 Key Value Chain Elements    89
    5.2 Potential Applications of Drones (UAVs) along the Value Chain    90
    6.    DRONE (UAV) AND ROBOTICS TECHNOLOGY OVERVIEW    91
    6.1.    Brief Drone (UAV) Technology Overview    91
    6.2.    Brief Robotics Technology Overview    91
    6.3.    Comprehensive Configuration of Drone (UAV) and Robotics for Inspection of Utility Grids and Other Associated Services    92
    6.4.    Drone (UAV) Guidance, Navigation and Control Systems    95
    6.5.    Photogrammetry and LiDAR    96
    6.6.    Data Transmission and Data Acquisition    96
    6.7.    Payload (Sensors and Optics) Selection for Inspection of Utility Grids    97
    7.    KEY INDUSTRY VENDORS COMPETITIVE LANDSCAPE    97
    7.1.    Drone (UAV) Vendors Active in Utility Grid Infrastructure    98
    7.2.    Robotics Vendors Active in Utility Grid Infrastructure    102
    7.3.    Drone (UAV) Inspection and Associated Services Providers    104
    7.4.    Other Providers of Drone (UAV) and Robotics Services Related to Utility Grid Infrastructure    111
    8.    KEY INNOVATIONS    116
    8.1.    Ultra-Light LiDAR systems for drone (UAV) applications    116
    8.2.    Innovative Robotics for Power Line Inspection    119
    8.3.    Recharge of Drone (UAV) Batteries by Landing on Power Lines    121
    8.4.    Counter-drone (anti-drone) systems for inspection drones (UAVs) flying in protected/restricted areas (no fly zones)    122
    8.5.    Top Drone (UAV) Startups and Funding    124
    9.    DRONE (UAV) AND ROBOTICS INTEGRATION WITH INTERNET OF THINGS (IOT) AND SMART CITIES    126
    9.1.    Drone (UAV) and Robotics in Utility Grid Infrastructure and Integration with Internet of Things (IOT)    126
    9.2.    Drone (UAV) and Robotics in Utility Grid Infrastructure and Integration with Smart Cities    129
    10.    SWOT ANALYSIS OF DRONES (UAVs) AND ROBOTICS IN UTILITY GRID INFRASTRUCTURE IN MIDDLE EAST    130
    11.    RISK ANALYSIS AND RISK MITIGATION    131
    11.1.    Safety Risk and Hazard Risk    132
    11.1.1.    Phase I – Safety Hazard Identification. Definition of Safety Hazards    133
    11.1.2.    Phase II – Drone (UAV)   Safety Risk Assessment    135
    11.1.3.    Phase III – Drone (UAV) Safety Risk Mitigation    138
    11.1.4.    Phase IV – Drone (UAV) Safety Documentation & Management    139
    11.2.    Regulatory Risk    140
    11.3.    Social Risk    141
    11.4.    Hacker’s (Cyber) Attacks and Theft of Drones (UAVs)    141
    11.5.    Insurance protection    143
    12.    CONCLUSIONS    145
    13.    RECOMMENDATIONS    149
    13.1.    Recommendations for Utility Grid Companies    149
    13.2.    Recommendations for Drone (UAV) and Robotics Inspection Companies Targeting Utility Grid Transmissions and Distribution Market    150
    14.    LIST OF ABBREVIATIONS    152
    15.    COMPANY DIRECTORY    157
    16.    REFERENCES    160
    17.    DISCLAIMER AND COPYRIGHT    163
  • MAP 1: World Lighting Flashes Map: 2016, NASA    28
    MAP 2: Global Electric Power Transmission and Distribution losses (% of output) 2016; World Bank    47
    MAP 3: Interconnection Grid Map CEE and CIS countries, ENTSO-E, 2017    49
    MAP 4: Central Asia Electricity Grid Map, 2017    51
    MAP 5: Concentration of DSOs by Countries in Europe 2016    54
    MAP 6: Conceptual European Supergrid Structure Connecting Renewable Power Sources    55

    Figure 1: Corrosion in Steel Tower of Electricity Transmission and Distribution Company    26
    Figure 2: Crawler Robot Inspecting High Voltage Power Lines    27
    Figure 3: Thermal Image Drone (UAV) Inspection of High Voltage Power Lines    27
    Figure 4: Aged Tower of Electricity Transmissions and Distribution Company    29
    Figure 5: Aerial Drone (UAV) Inspection of Steel Tower of Electricity Transmission and Distribution Company    30
    Figure 6: Storm Damaged Steel Tower of Electricity Transmission and Distribution Company    33
    Figure 7: Lighting Damaged Tower of Electricity Transmission and Distribution Company    35
    Figure 8: LiDAR-based Inspection Data Analysis to Calculate Vegetation around Power Lines Route    40
        
    Chart 1: Global Electric Power Transmission Network in Circuit Kilometers (Ckm) 2000 – 2016; RENEWABLE MARKET WATCHTM    48
    Chart 2: Physical Electrical Energy Flows Values in GW in Europe 2016    50
    Chart 3: Utility Distribution Power Lines in Europe by Countries and Voltage 2016    53
    Chart 4: World Cumulative Renewable Energy Installations in GW for 1997 - 2026, WWEA, GWEC, RENEWABLE MARKET WATCHTM    56
    Chart 5: Annual Utility Grids Length Available for Inspection by Drones (UAVs) and Robotics in Middle East by Country (in km): 2017 – 2026    77
    Chart 6: Annual Utility Grids Length Inspected by Drones (UAVs) and Robotics (in km) in Middle East by Country: 2017 – 2026    78
    Chart 7: Middle East Cumulative Revenue of Drones (UAVs) and Robotics in Utility Grid Infrastructure by Country (in Millions USD): 2017 – 2026    79
    Chart 8: Middle East Cumulative Revenue for Drone (UAV) and Robotics Units and Services for Utility Grid Inspection by Country (in Millions USD): 2017 – 2026    80
    Chart 9: Middle East Cumulative Revenue for Drone (UAV) and Robotics Units and Services for Vegetation Assessment and Management by Country (in Millions USD): 2017 – 2026    81
    Chart 10: Middle East Cumulative Revenue for Drone (UAV) and Robotics Units and Services for Feasibility Analyses and Technical Due Diligence by Country (in Millions USD): 2017 – 2026    82
    Chart 11: Middle East Cumulative Revenue for Drone (UAV) and Robotics Units and Services for Surveillance and Security of Utility Grids by Country (in Millions USD): 2017 – 2026    83
    Chart 12: Middle East Annual Revenue of Drones (UAVs) and Robotics in Utility Grid Infrastructure by Country (in Millions USD): 2017 – 2026    84
    Chart 13: Middle East Annual Revenue for Drone (UAV) and Robotics Units and Services for Utility Grid Inspection by Country (in Millions USD): 2017 – 2026    85
    Chart 14: Middle East Annual Revenue for Drone (UAV) and Robotics Units and Services for Vegetation Assessment and Management by Country (in Millions USD): 2017 – 2026    86
    Chart 15: Middle East Annual Revenue for Drone (UAV) and Robotics Units and Services for Feasibility Analyses and Technical Due Diligence by Country (in Millions USD): 2017 – 2026    87
    Chart 16: Middle East Annual Revenue for Drone (UAV) and Robotics Units and Services for Surveillance and Security of Utility Grids by Country (in Millions USD): 2017 – 2026    88
    Chart 17: Value Chain of Drones (UAVs) and Robotics in Utility Grid Infrastructure    89
    Chart 18: Drone (UAV) Investment Activity 2012 - 2016    126
    Chart 19: Drone (UAV) Safety Management Process    140

    Table 1: Flight classification of drone (UAV) types in Egypt    69
    Table 2: Flight classification of drone (UAV) types in Israel    69
    Table 3: Flight classification of drone (UAV) types in Saudi Arabia    70
    Table 4: Flight classification of drone (UAV) types in United Arab Emirates (UAE)    71
    Table 5: Drone (UAV) Unit Cost for Utility Grid Inspection in Middle East in 2017    73
    Table 6: Drone (UAV) Unit Cost for Vegetation Assessment and Management in Middle East in 2017    74
    Table 7: Drone (UAV) Unit Cost for Feasibility Analyses and Technical Due Diligence in Middle East in 2017    74
    Table 8: Drone (UAV) Unit Cost for Surveillance and Security of Utility Grid Infrastructure in Middle East in 2017    75
    Table 9: Drone (UAV) Services Cost for Utility Grid Inspection in Middle East in 2017    75
    Table 10: Drone (UAV) Services Cost for Environmental Impact Assessment of Wind Farms in Middle East in 2017    76
    Table 11: Drone (UAV) Services Cost for Feasibility Analyses and Technical Due Diligence in Middle East in 2017    76
    Table 12: Drone (UAV) Services Cost for Surveillance and Security of Utility Grid Infrastructure in Middle East in 2017    77
    Table 13: Potential Applications of Drones (UAVs) and Robotics in Utility Grid Infrastructure along the Value Chain    90
    Table 14: Top 10 Early Stage Drone Startups    125
    Table 15: SWOT Analysis of Drones (UAVs) and Robotics in Utility Grid Infrastructure in Middle East    131
    Table 16: Phases of Drone (UAV) Safety Risk Assessment    133
    Table 17: Drone (UAV) Safety Risk Probability    135
    Table 18: Drone (UAV) Safety Risk Severity    136
    Table 19: Drone (UAV) Safety Risk Matrix I    137
    Table 20: Drone (UAV) Safety Risk Matrix II    137
    Table 21: Drone (UAV) Safety Risk Mitigation    138

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