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市場調查報告書

無人機轉頻器:天空的高速公路的市場佔有率、市場策略、市場預測 2016-2022年

Drone Transponders: Highways in the Sky Market Shares, Market Strategies, and Market Forecasts, 2016 to 2022

出版商 WinterGreen Research, Inc. 商品編碼 360880
出版日期 內容資訊 英文 268 Pages, 92 TABLES AND FIGURES
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無人機轉頻器:天空的高速公路的市場佔有率、市場策略、市場預測 2016-2022年 Drone Transponders: Highways in the Sky Market Shares, Market Strategies, and Market Forecasts, 2016 to 2022
出版日期: 2016年06月17日 內容資訊: 英文 268 Pages, 92 TABLES AND FIGURES
簡介

全球無人機轉頻器市場規模,預計預防無人機的矛盾,保持天空的高速公路安全管理,以及商用UAS的途徑的尼斯響應,從零開始,到2022年達到25億美元。

本報告以全球無人機轉頻器市場為焦點,提供市場概要,動態,佔有率,及預測,產品及主要企業簡介等彙整資料。

摘要整理

第1章 天空的無人機高速公路:市場說明、市場動態

  • UAS的法律規範
  • 無人機控制空中區域的必要性
  • 廣播式自動回報監視 (ADS-B) 轉頻器
  • Google對未控制空中區域尋求轉頻器
  • 智慧商用無人機
  • 無人機擴張功能、酬載

第2章 天空的無人機高速公路:市場佔有率、市場預測

  • 無人機轉頻器市場促進要素
  • 無人機轉頻器的主要打入市場企業
  • 無人機轉頻器市場預測
  • 商用無人機轉頻器的價格、無人機的課題
  • 接收器的ADS-B
  • 無人機轉頻器的地區市場區隔分析

第3章 產品說明

第4章 轉頻器研究、技術

  • Lloyd's Register的技術長 (CTO)的指導筆記
  • 無人機軟體技術/UgCS
  • 轉頻器技術
  • 無人機法規
  • 無人駕駛航空器系統的酬載

第5章 企業簡介

  • Airogistic
  • Amazon
  • Denel Dynamics
  • DJI
  • Dronecode
  • FreeFlight
  • Fortem
  • Garmin
  • Google
  • IMSAR LLC
  • Intel
  • I-Lap Timing Systems
  • Knorr-Bremse Group / Bendix
  • L-3 Communication
  • MarcusUAV
  • UAvionix
  • MMist
  • Northrop Grumman
  • Rockwell Collins
  • Sagetech Corporation
  • Textron
  • Trig Avionics
目錄
Product Code: SH26794999

Worldwide drone transponder markets are poised to achieve significant growth with the need to achieve protected airways.

The simplest way to protect against mid-air collisions is to require the use of ADS-B transponders on all aircraft. Transponders can turn an uncooperative environment into a cooperative environment. Transponders provide location and positioning information about smart commercial UAS. These UAS have a computer inside, they are easy to fly, remotely maneuverable, have a camera, and contain sensor logic. Smart UAS are evolving computer driven collision avoidance technology making the flying more reliable.

Remote operation occurs in the context of a workflow and sensors. Cameras are improving dramatically to permit management of video and picture taking that is realistic and detailed. Drone actuators, drone transponders, are needed to support drone package delivery. This is a huge new market that speeds economic development, makes it easier for the middle class to both work, and purchase lifestyle items and food efficiently.

UAS based on aerial robotic platform technology can be used to make deliveries to each person's home, landing on the back doorstep, leaving packages in a locked box. The drone package delivery technology has reached a level of maturity that bodes well for market development. Drone systems are mature enough to be at the forefront of aerospace manufacturing.

Dronecode is an independently funded software project that harnesses the power of collaborative development. The aim is to fuel innovation across drone industries and ecosystems. Dronecode Foundation is a nonprofit organization working on a common, shared open source platform for Unmanned Aerial Vehicles (UAVs). Dronecode brings together existing and future open source UAV software projects.

APM UAV software platform was developed by 3DRobotics. 1,200 developers are working on Dronecode's six projects focused on maximizing adoption of the project's cost-effective, reliable and technologically advanced UAV software.

UAvionix has an ultra-lightweight low cost ADS-B transponder for UAS. UAvionix has developed an ADS-B suitable for UAVs of all sizes to improve flying safety for all. The ping™ is a family of ultralight weight, low cost, ADS-B transponders.

Weights range from 1.5 to 30 grams, delivering a variety of types of performance. The ping2020™, for instance, is capable of IN on both 1090ES and 978UAT, and OUT on 978UAT. The products are fully compliant with the minimum performance standards of DO-282B Class A1S. UAvionix has developed an ADS-B suitable for UAVs of all sizes to The ping™ is among the world's first families of ultralight weight, low cost, ADS-B transponders.

Transponder and sense and avoid technology sponsorship by Sagetech, L-3 Aviation Products, FreeFlight, UAvionix, Google, Trig, DJI, and Intel has been effective. Development by Dronecode application ecosystem provides huge advances in drone real-time sense and avoid behavior. An open source collaboration is expected to accelerate deployable solutions for agile and reliable operation in the national airspace. The open source platform has been adopted by many organizations on the forefront of drone technology: 3DRobotics, Parrot, Qualcomm, Intel, DroneDeploy, Yuneec, Airphrame, and others.

With 750,000 users and 500 active developers the open source code initiative represents a compelling community of professionals and enthusiasts is able to support active improvements in control of airspace and improvement in flying safety for all. The alliance has worked on development standardization and software module interoperability.

According to Susan Eustis, lead author of the study, “Use of drone transponders represents a key milestone in provision of value to the airborne package delivery industry. Customized cameras are used to supplement GPS navigation, acting as eyes of the drone, permitting package delivery everywhere. Digital controls will further automate flying, making ease of use and flight stability a reality.”

New materials and new designs are bringing that transformation forward. By furthering transponder innovation, continued growth is assured.

The worldwide market for drone transponders is anticipated to start from nothing and reach $2.5 billion worldwide by 2022 growing in response to the need to prevent drone collisions, keep the highways in the sky safe, and manage routing of commercial UAS. Multiple applications drive market growth, most of all package delivery occurs out of line of sight. Other applications for drone transponders are in consumer photography, lightweight commercial UAS for real estate, the military, law enforcement, border control, homeland security, utility infrastructure surveillance, agriculture, aerial mapping, and package delivery.

Table of Contents

Drone Transponder Highways in the Sky Executive Summary

  • Drone Transponder Market Driving Forces
    • Self-Regulation of Drones Using Transponders
    • Remote-Controlled Aircraft
    • Drone Transponder Market Driving Forces
  • Drone Transponder Market Shares
  • Drone Transponder Market Forecasts

1. Drone Highways in the Sky: Market Description and Market Dynamics

  • 1.1. UAS Regulatory Frameworks
    • 1.1.1. ADS-B for Small Drones
  • 1.2. Need for Drone Controlled Airspace
    • 1.2.1. Transponder Control by Privately Owned Agency
    • 1.2.2. Self-Regulation of Drones Using Transponders
    • 1.2.3. Project Wing from Google Wants A Transponder Mandatory For All Aircraft
  • 1.3. Automatic Dependent Surveillance Broadcast ADS-B Transponder
    • 1.3.1. QUICK LINKS
    • 1.3.2. PRODUCTS
  • 1.4. Google wants transponder in uncontrolled airspace
    • 1.4.1. US FAA Commercial Drone Permits
  • 1.5. Smart Commercial Drones
    • 1.5.1. Smart Drones: Commercial Unmanned Aerial Systems (UAS) Description
  • 1.6. Drone Enhanced Capability and Payloads
    • 1.6.1. Unmanned Aerial Systems (UAS) Enhanced Resilience
    • 1.6.2. Small and Micro-UAS Drones

2. Drone Highways in the Sky Market Shares and Forecasts

  • 2.1. Drone Transponder Market Driving Forces
    • 2.1.1. Self-Regulation of Drones Using Transponders
    • 2.1.2. Dronecode Platform
    • 2.1.3. Remote-Controlled Aircraft
    • 2.1.4. Drone Transponder Market Driving Forces
  • 2.2. Drone Transponder Leading Market Participants
    • 2.2.1. Sagetech
    • 2.2.2. L-3 Aviation Products
    • 2.2.3. FreeFlight
    • 2.2.4. UAvionix
    • 2.2.5. Google Low-Cost ADSB Transponders
    • 2.2.6. Trig Design And Engineering
    • 2.2.7. Intel Ascending Technologies' Asctec Trinity
    • 2.2.8. Dedrone
    • 2.2.9. ISMAR / Fortem
    • 2.2.10. DJI
    • 2.2.11. microadsb.com
  • 2.3. Drone Transponder Market Forecasts
    • 2.3.1. Drone Aerial Systems Market Forecasts
    • 2.3.2. Drone Market Segment Applications
    • 2.3.3. Drone Aerial Systems by Sector, Military, Agriculture, Oil and Gas, Border Patrol, Law Enforcement, Homeland Security, Disaster Response, Package Delivery, Photography, Videography, Dollars
  • 2.4. Commercial Drone Transponder Prices and Drone Issues
    • 2.4.1. RELATED PRODUCTS
  • 2.5. ADS-B In Receivers
    • 2.5.1. $300 Transponder Units For CAA UK Approval
    • 2.5.2. Drone Issues Beyond Line Of Sight
  • 2.6. Drone Transponder Regional Market Segment Analysis

3. Drone Transponder Highways in the Sky Product Description

  • 3.1. Google Low-Cost ADSB Transponders
    • 3.1.1. Google's Vision
    • 3.1.2. Autonomous Drones Airspace: Private Agency Control
    • 3.1.3. Google Has Started Development of A Transponder
    • 3.1.4. Google Mesh Networks
  • 3.2. Sagetech
    • 3.2.1. Sagetech ADS-B for Small Drones
    • 3.2.2. Sagetech Transponders Shrinking To Meet FAA Drone Demands
  • 3.3. Microadsb.com
    • 3.3.1. UgCS Compatible with ADS-B Receivers
  • 3.4. L-3 Aviation Products
    • 3.4.1. L-3 NXT-600™ / NXT-800™
    • 3.4.2. L-3 Upgrade to ADS-B Out
    • 3.4.3. L-3 SafeRoute®
  • 3.5. FreeFlight
    • 3.5.1. FreeFlight Systems and CMD Flight Solutions
    • 3.5.2. CMD Flight Solutions
  • 3.6. Airogisitic
  • 3.7. General Atomics Drone Friend or Foe Identification (IFF) Transponders
  • 3.8. Trig
    • 3.8.1. Trig TT31 Mode S ADS-B Capable Transponder
  • 3.9. Lynx
    • 3.9.1. Pilot Nightmare: Entering a Temporary Flight Restriction (TFR) Airspace
  • 3.10. Stratus
    • 3.10.1. Stratus Esg Transponder
  • 3.11. Rockwell Collins
  • 3.12. Bendix
  • 3.13. Garmin
  • 3.14. MarcusUAV Medium Range 2.4Ghz Tracking Antenna
    • 3.14.1. Marcus UAV
  • 3.15. I-Laps Transponder for FPV Multi-rotors
  • 3.16. Intel
    • 3.16.1. Intel Realsense Cameras And Ascending Technologies' Asctec Trinity
    • 3.16.2. Ascending Technologies AscTec Firefly
    • 3.16.3. Drone: Asctec Firefly with Intel Realsense
    • 3.16.4. Ascending Technologies and Intel Collaboration to Develop Drone Collision Avoidance Technology
    • 3.16.5. Ascending Technologies Asctec Firefly / Intel RealSense Camera
    • 3.16.6. Intel Realsense Cameras and Ascending Technologies' Asctec Trinity
    • 3.16.7. AscTec Falcon 8
  • 3.17. UAvionix
  • 3.18. Follow Me Drones
  • 3.19. Textron Systems Homeland Security
    • 3.19.1. Nano Air Vehicle
  • 3.20. Denel Dynamics Seeker 400 UAS
    • 3.20.1. Denel Dynamics Seeker 400 Multi-mission, Multi-role ISR System
    • 3.20.2. Denel Dynamics Seeker 400 System
    • 3.20.3. Denel Dynamics Seeker 400 Multi-mission, Multi-role ISR System Features
    • 3.20.4. Denel Dynamics Hungwe UAS
  • 3.21. IMSAR LLC Collision-Avoidance Radar Systems
  • 3.22. Civilian UAV's - Rover Systems
  • 3.23. CPI-406 Deployable Emergency Locator Transmitter (ELT)
    • 3.23.1. Deployable Flight Incident Recorder Set (DFIRS)
    • 3.23.2. Airborne Separation Video System (ASVS)
    • 3.23.3. Airborne Separation Video System - Remote Sensor (ASVS - RS)
  • 3.24. DJI
    • 3.24.1. DJI Guidance Approach
  • 3.25. Dedrone

4. Drone Highways in the Sky Transponder Research and Technology

  • 4.1. Lloyd's Register Chief Technology Officer Guidance Notes
    • 4.1.1. Lloyd's Register Foundation Unlocking Further Potential
    • 4.1.2. Lloyd's Register First Phase Of Its Guidance Notes For Drones
  • 4.2. Drone Software Technology / UgCS
    • 4.2.1. DJI
    • 4.2.2. 3DRobotics
    • 4.2.3. Lockheed Martin
    • 4.2.4. Mikrokopter
    • 4.2.5. Micropilot
    • 4.2.6. Microdrones
    • 4.2.7. Parrot
  • 4.3. Transponder Technology
  • 4.4. Drone Regulation
    • 4.4.1. Separating The Hobbyist Industry From The Commercial Drone industry A Challenge
    • 4.4.2. Drone Test Sites Selected by the FAA
    • 4.4.3. Drone Exemptions
    • 4.4.4. FAA Plans Final Regulation on Commercial Drone Use by Mid-2016
    • 4.4.5. US FAA Commercial Drone Permits
  • 4.5. Unmanned Aerial Systems Payloads
    • 4.5.1. Composites Key to Utility
    • 4.5.2. Military Drone Technology
    • 4.5.3. Military Systems Interoperability
    • 4.5.4. Drone Operational Benefits of Autonomy
    • 4.5.5. Drone Operational Benefits of Autonomy

5. Drone Highways in the Sky Company Profiles

  • 5.1. Airogistic
  • 5.2. Amazon
  • 5.3. Denel Dynamics
  • 5.4. DJI
    • 5.4.1. DJI Revenue Demonstrates Leadership Position
  • 5.5. Dronecode
  • 5.6. FreeFlight
    • 5.6.1. FreeFlight Systems and CMD Flight Solutions Complete ADS-B Out AML STC for Part 25
  • 5.7. Fortem
  • 5.8. Garmin
    • 5.8.1. Garmin Global Positioning System
    • 5.8.2. Garmin Aviation
    • 5.8.3. Garmin Transponder Solutions
    • 5.8.4. Garmin UAT-Based ADS-B Solutions -
  • 5.9. Google
    • 5.9.1. Google Robotic Division
    • 5.9.2. Google Self-Driving Car
    • 5.9.3. Google Cars Address Vast Majority Of Vehicle Accidents Due To Human Error
    • 5.9.4. Google Business
    • 5.9.5. Google Corporate Highlights
    • 5.9.6. Google Search
  • 5.10. IMSAR LLC
    • 5.10.1. IMSAR Announces Sale of Detect and Avoid Radar Technology to Fortem Technologies - Product Available from Fortem in July 2016
  • 5.11. Intel
    • 5.11.1. Intel Company Strategy
    • 5.11.2. Intel Realsense Cameras And Ascending Technologies' Asctec Trinity
    • 5.11.3. Intel Capital
  • 5.12. I-Lap Timing Systems
  • 5.13. Knorr-Bremse Group / Bendix
    • 5.13.1. Bendix
  • 5.14. L-3 Communication
    • 5.14.1. L-3 Communications
    • 5.14.2. L-3 Aerospace Systems
    • 5.14.3. L-3 Electronic Systems
    • 5.14.4. L-3 Communication Systems
    • 5.14.5. L-3 National Security Solutions
    • 5.14.6. L-3 Revenue by Segment
    • 5.14.7. L-3 Communication / Lynx
  • 5.15. MarcusUAV
  • 5.16. UAvionix
    • 5.16.1. Access to the Dronecode Application Ecosystem Open Source Platform
  • 5.17. MMist
    • 5.17.1. MMIST Sherpatm Guided Parachute System
    • 5.17.2. MMIST SnowGoosetm CQ-10A Unmanned Aerial System (UAS)
  • 5.18. Northrop Grumman
    • 5.18.1. Northrop Grumman Revenue
    • 5.18.2. Northrop Grumman Remotec
    • 5.18.3. Northrop Grumman Leading Global Security Company
    • 5.18.4. Northrop Grumman Supplies Marine Navigation Equipment
    • 5.18.5. Northrop Grumman Recognized by UK Ministry of Defense for Role in Supporting Sentry AWACS Aircraft During Military Operations in Libya
    • 5.18.6. Northrop Grumman Corporation Subsidiary Remotec Inc. upgrade the S. Air Force fleet of Andros HD-1
    • 5.18.7. Northrop Grumman NAV CANADA Supplier
  • 5.19. Rockwell Collins
  • 5.20. Sagetech Corporation
  • 5.21. Textron
  • 5.22. Trig Avionics
    • 5.22.1. Trig Design And Engineering WinterGreen Research, WinterGreen Research Research Methodology

List of Figures and Tables:

  • Figure 2-1: Parrot S.A. Bebop Commercial Drone
  • Figure 2-2: Parrot S.A. Bebop Commercial Drone Controller
  • Table ES-3: Self-Regulation of Drones Using Transponders Benefits
  • Table ES-4: Drone Transponder Market Driving Forces
  • Table ES-5: Likely Leading Participants in Drone Transponders
  • Table 2-: Drone Transponder Market Forecasts, Dollars, Worldwide, 2016-2022
  • Table 1-1: Beyond Visual Line Of Sight BVLOS Component Systems
  • Figure 1: Drone Needs Transponder for Identification
  • Table 1: Drone Transponder Self-Regulation Benefits
  • Figure 2: Drone Package Delivery: Amazon Prime Air
  • Figure 2: Drone Package Delivery
  • Figure 1: Automatic Dependent Surveillance Broadcast ADS-B Transponder
  • Figure 2-84: DJI Share of FAA Drone Operations Exceptions
  • Table 1-1: Ability Of Commercial Drones To Perform Delivery Function
  • Figure 2-1: Parrot S.A. Bebop Commercial Drone
  • Figure 2-2: Parrot S.A. Bebop Commercial Drone Controller
  • Table 2-3: Self-Regulation of Drones Using Transponders Benefits
  • Table 2-4: Drone Transponder Market Driving Forces
  • Table 2-5: Likely Leading Participants in Drone Transponders
  • Figure 2-6: Sagetech ADS-B In/Out Transponder
  • Table 2-7: Drone Transponder Market Forecasts, Dollars, Worldwide, 2016-2022
  • Table 2-8: Drone Transponder Aerial Systems Market Forecasts and Market Penetration, Units and Dollars, Worldwide, 2016-2022
  • Figure 2-9: Drone Aerial Systems Forecasts, Dollars, Worldwide, 2016-2022
  • Table 2-10: Drone Aerial Systems Market Forecasts Dollars, Worldwide, 2016-2022
  • Table 2-11: Drone Aerial Systems Market Forecasts, Units, Worldwide, 2016-2022
  • Table 2-12: Drone Market Segment Applications
  • Table 2-13: Drone Aerial Systems by Sector, Military, Agriculture, Oil and Gas, Border Patrol, Law Enforcement, Homeland Security, Disaster Response, Package Delivery, Photography, Videography, Dollars, Worldwide, 2016-2022
  • Table 2-14: Drone Issues Beyond Line Of Sight
  • Figure 2-15: Drone Robot Aerial Systems Vehicle (UAS) Regional Market Segments, Dollars, 2015 95
  • Figure 3-1: Sagetech-XP-Family-Transponder Size
  • Table 3-2: Sagetech Transponder Features
  • Figure 3-3: Sagetech-XP-Family-Transponder
  • Figure 3-4: Sagetech Target Markets
  • Figure 3-5: Sagetech-XP-Family-Transponder Specifications
  • Table 3-6: Microadsb Wireless Receiver Features
  • Figure 3-7: Trig TT31 Mode S ADS-B Capable Transponder
  • Table 3-8: Trig TT31 Features:
  • Figure 3-9: Trig Transponders
  • Figure 3-10: Lynx Mode S transponder
  • Figure 3-11: Lynx NGT-9000 Transponder Quick Features
  • Figure 3-12: Transponder Controls Temporary Flight Restriction (TFR) airspace
  • Figure 3-13: Stratus™ 2S ADS-B Receiver for iPad
  • Figure 3-14: Stratus Esg Transponder
  • Table 3-15: Stratus ESG Transponder Features
  • Figure 3-16: Rockwell Collins Transponders
  • Table 3-17: Rockwell Collins' TDR-94D Transponder Key Features
  • Table 3-18: Rockwell Collins' TDR-94D Transponder Key Benefits
  • Figure 3-19: Rockwell Collins TDR-94-94D Mode S Transponder
  • Figure 3-20: Bendix / King Kt 74 Ads-B Mode S Transponder
  • Table 3-21: Bendix / King Kt 74 ADS-B Mode S Transponder Benefits
  • Table 3-22: Bendix / King Kt 74 ADS-B Mode S Transponder Functions
  • Table 3-23: Garmin GTX 345 Transponder
  • Figure 3-24: I-Laps Drone Transponder
  • Figure 3-25: UAvionix ADS-B suitable for UAVs of All Sizes
  • Table 3-26: Textron Systems Global Observer System Homeland Security Functions
  • Table 3-27: Textron Systems Global Observer Features
  • Figure 3-28: Nano Air Advanced Development Aircraft:
  • Figure 3-29: Denel Dynamics Seeker 400 UAS
  • Table 3-30: Denel Dynamics Seeker 400 Features
  • Table 3-31: Denel Dynamics Seeker 400 Multi-mission, Multi-role ISR System Components:
  • Table 3-32: Denel Dynamics Seeker 400 Multi-Mission, Multi-Role ISR System Features
  • Table 3-33: Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System TCU System Features
  • Table 3-34: Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System TCU System Features
  • Figure 3-35: Denel Dynamics Hungwe UAS
  • Table 4-1: Lloyd's Register Drone Technology Guidance Notes
  • Figure 4-2: UgCS Identification of Aircraft
  • Table 4-3: UgCS Supported Drones
  • Figure 4-4: DJI Drones Supported by UgCS
  • Figure 4-5: 3DRobotics Drones Supported by UgCS
  • Figure 4-6: Lockheed Martin Drones Supported by UgCS
  • Figure 4-7: Mikrokopter Drones Supported by UgCS
  • Figure 4-8: Micropilot Drones Supported by UgCS
  • Figure 4-9: Microdrones Drones Supported by UgCS
  • Figure 4-10: Parrot Drones Supported by UgCS
  • Table 4-11: Drone Transponder Technology 4.4 Drone Regulation
  • Table 4-12: Drone Use Regulation Issues
  • Figure 4-13: Drone Test Sites Selected by the FAA
  • Table 4-14: Drone operator Responsibilities With a Section 333 exemption
  • Figure 4-15: FAA Drone Exemptions by Use Case
  • Figure 4-16: DJI Share of FAA Drone Operations Exceptions
  • Table 4-17: Military Drone Technology Key Requirements
  • Figure 4-18: US Military DISA Drone Architecture
  • Figure 4-19: Drone Operational Architecture
  • Table 5-1: Airogistic drone Endpoint Technology Applications
  • Figure 5-2: DJI Drone
  • Figure 5-3: DJI Phantom
  • Figure 5-4: Fortem Omnipresence 3D Airport Security Management Software
  • Table 5-5: Fortem Omnipresence 3D Airport Security Management Software
  • Table 5-6: Garmin Global Navigation Satellite Systems (GNSS) Used:
  • Table 5-7: Google Autonomous Vehicles Technology
  • Figure 5-8: I-Laprc Drone Race Timing System Transponder
  • Table 5-9: L-3: Positioning
  • Table 5-10: Northrop Grumman Partner Of Choice
  • Figure 5-11: Northrop Grumman Systems Segments
  • Figure 5-12: Northrop Grumman Portfolio
  • Table 5-13: Rockwell Collins Core Competencies:
  • Table 5-14: Textron First Quarter 2015 Segment Results
  • Table 5-15: Textron Brands
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