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ファーストレスポンダー向け無人機(UAV):技術・購入ガイド・操作コンセプト

Unmanned Aerial Vehicles for First Responders: Technology, Buying Guide and Operating Concept

発行 Market Info Group LLC 商品コード 295762
出版日 ページ情報 英文
納期: 即日から翌営業日
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ファーストレスポンダー向け無人機(UAV):技術・購入ガイド・操作コンセプト Unmanned Aerial Vehicles for First Responders: Technology, Buying Guide and Operating Concept
出版日: 2014年02月11日 ページ情報: 英文
概要

当レポートでは、無人航空機技術、特に第一応答者にとって最も有益なUAVについて調査し、技術別の分析、UAVの購入ガイドおよび操作コンセプトを含め、概略以下の構成でお届けします。

第1章 イントロダクション

第2章 エグゼクティブサマリー

  • ファーストレスポンダー向けUAVとは?
  • UAVの受け入れ
  • UAV市場
  • 主な調査結果

第3章 現在のUAV技術

  • UAV製造国
  • 成層圏UAV
  • ジェット気流UAV
  • 高高度UAV
  • 中高度UAV
  • 低高度UAV
    • 遠隔制御(RC)航空機
  • マイクロUAV
  • ナノUAV
  • 軽航空機
  • 電気燃料電池

第4章 操作コンセプト

  • 計画の検討
    • 安全操作
    • 地域的状況
    • 政治的状況
    • 現実的状況
    • 野心を制限する
  • サンプル操作コンセプト
    • 最小限の能力
    • 段階的な操作コンセプト
    • 操作コンセプトの解説

第5章 購入ガイド

  • 要件リスト
    • 最大許容飛行時間
    • 天候
    • 対気速度
    • UAVオペレーターの能力
    • 教訓
  • UAV基地の選定
    • 自動
    • 機体
  • 保管・発射システム
    • 提言
  • 結論
    • UAVは未熟で怖い
    • 航空ユニット付き
    • 航空ユニット無し
    • 売り手に対する請求権利を認証する
    • 初期のUAV導入者から学ぶ

付録

図表リスト

目次

First Responders need information and they need it fast. Whether they're police officers rushing to a crime scene, fire fighters faced with a wall of smoke or medics sorting out a mass casualty event, they never know enough about what's ahead. As a result, First Responders employ some of the most sophisticated technology found outside the military. UAVs are following the proven pattern of military technology migrating to civil agencies; some are already flying for First Responders. But very little military technology is suitable for direct transfer - buying military systems is almost always a big mistake.

This new report overviews unmanned aircraft technology, especially the UAVs that will prove most useful for First Responders. It also details the political, bureaucratic and privacy ‘back stories' that form the public's context in the most demanding European and North American nations.

More importantly, this report includes two unique features that First Responders and their suppliers won't find anywhere else:

  • A detailed Buying Guide (with checklists) designed to walk First Responders through early planning for an unmanned aviation unit. It proves that simply operating ex-military unmanned aircraft will almost always fail.
  • An illustrated Operating Concept created for a real, diverse and geographically varied jurisdiction. It forms the basis for critical acquisition decisions and the new unit's success.

Together, these features will bring the reader to a level of understanding that will allow them to intelligently advise sworn leaders and community policy makers through a rational (not emotional) process of evaluating UAV capabilities relative to their needs and resources. This is not hype or a sales pitch - this is a detailed education with extractable guides and illustrations.

This Buying Guide is specifically designed to benefit:

  • Policy Makers & Analysts
  • Procurement Managers
  • Field Commanders
  • Users

Table of Contents

1. Introduction

  • 1.1. Scope
  • 1.2. What are First Responders?
  • 1.3. What are UAVs?
  • 1.4. Forecast Scenarios
    • 1.4.1. Why Scenarios?
    • 1.4.2. Scenario I: Little or No Access to Civilian Airspace
    • 1.4.3. Scenario II: Easy Access to Civilian Airspace
    • 1.4.4. Scenario Notes
  • 1.5. Research Team and Methods
  • 1.6. Who Will Benefit from this Buying Guide?
    • 1.6.1. Policy Makers & Analysts
    • 1.6.2. Procurement Managers
    • 1.6.3. Field Commanders
    • 1.6.4. Users
  • 1.7. Language, Disclaimer and Further Information
  • 1.8. How to Extract High Quality Graphics

2. Executive Summary

  • 2.1. What are UAVs for First Responders?
    • 2.1.1. Who will these UAVs Help?
  • 2.2. UAV Acceptance
    • 2.2.1. Privacy Issues
    • 2.2.2. Jobs
  • 2.3. UAV Markets
    • 2.3.1. UAV Buying Guide
  • 2.4. Major Findings
    • 2.4.1. Finding 1
    • 2.4.2. Finding 2
    • 2.4.3. Finding 3
    • 2.4.4. Finding 4
    • 2.4.5. Finding 5
    • 2.4.6. Finding 6
    • 2.4.7. Finding 7
    • 2.4.8. Finding 8
    • 2.4.9. Finding 9
    • 2.4.10. Finding 10
    • 2.4.11. Finding 11
    • 2.4.12. Finding 12
    • 2.4.13. Finding 13
    • 2.4.14. Finding 14
    • 2.4.15. Finding 15
    • 2.4.16. Finding 16
    • 2.4.17. Finding 17
    • 2.4.18. Finding 18

3. Current UAV Technologies

  • 3.1. UAV Manufacturing Nations
  • 3.2. Stratospheric UAVs
  • 3.3. Jet Stream UAVs
  • 3.4. High Altitude UAVs
  • 3.5. Medium Altitude UAVs
  • 3.6. Low Altitude UAVs
    • 3.6.1. Remotely Controlled (RC) Aircraft
  • 3.7. Micro UAVs
  • 3.8. Nano UAVs
  • 3.9. Aerostats
  • 3.10. Electric Fuel Cells

4. Operating Concept

  • 4.1. Planning Considerations
    • 4.1.1. Safe Operations
    • 4.1.2. Geographic Situation
    • 4.1.3. Political Situation
    • 4.1.4. Realistic Situation
    • 4.1.5. Limit Ambitions
  • 4.2. Sample Operating Concept
    • 4.2.1. Minimum Capabilities
    • 4.2.2. Step-by-Step Operating Concept
    • 4.2.3. Operating Concept Illustrations

5. Buying Guide

  • 5.1. Requirements List
    • 5.1.1. Maximum Allowable Flying Time
    • 5.1.2. Weather
    • 5.1.3. Airspeed
    • 5.1.4. UAV Operator Capabilities
    • 5.1.5. Lessons to Learn
  • 5.2. UAV Base Site Selection
    • 5.2.1. Automation
    • 5.2.2. Vehicles
  • 5.3. Storage and Launch Systems
    • 5.3.1. Recommendation
  • 5.4. The Bottom Line
    • 5.4.1. UAVs are strange and scary.
    • 5.4.2. With an Aviation Unit
    • 5.4.3. Without an Aviation Unit
    • 5.4.4. Validate Seller Claims
    • 5.4.5. Learn from Early UAV Adopters

Appendices

  • Appendix A - Glossary
  • Appendix B - Police Chief's Proposed UAV Code of Conduct
  • Appendix C - AUVSI UAV Code of Conduct
  • Appendix D - UAVs for First Responders Summary Article
  • Appendix E - European Union working to Integrate UAVs into Europe's Airspace

List of Tables and Figures

  • Table 1 - Number of Commercial UAV Operators
  • Table 2 - Joint UAV Group Classification (JCOE CONOPS)
  • Figure 1 - US States Restricting UAVs for Law Enforcement
  • Figure 2 - American States Competing to Test UAVs
  • Figure 3 - Impacted Clutha Pub
  • Figure 4 - SkySentry Aerostat System
  • Figure 5 - UAV Manufacturing Nations - by Capability
  • Figure 6 - Titan Aerospace Solara UAV
  • Figure 7 - Stratospheric UAV Airship Design
  • Figure 8 - Global Observer: Stratospheric UAV Design
  • Figure 9 - Heron TP: Jet Stream UAV
  • Figure 10 - Anka: High Altitude UAV
  • Figure 11 - Shadow: Medium Altitude UAV
  • Figure 12 - Uqab II: Low Altitude UAV
  • Figure 13 - Model A-10 Fire Firefighting Aircraft
  • Figure 14 - German Soldier Hand Launching a Micro UAV
  • Figure 15 - Mesa County, Colorado, USA Draganflyer X6
  • Figure 16 - Aerial Electric Visual Assistant (AEVATM)
  • Figure 17 - Black Hornet Nano UAV
  • Figure 18 - Nighthawk IV
  • Figure 19 - Conventional Large Aerostat Design
  • Figure 20 - Improved Large Aerostat Design
  • Figure 21 - Aerostat Designed For Low Wind Drag
  • Figure 22 - XFC: Micro UAV
  • Figure 23 - El Paso County, Colorado, USA
  • Figure 24 - Political Response Time Priorities
  • Figure 25 - Three and Ten Minute Response Coverage, No Wind
  • Figure 26 - Typical Operation, Overhead View
  • Figure 27 - Typical Operation, Side View
  • Figure 28 - Aerovironment Qubes Police Micro UAV
  • Figure 29 - D-Dalus Cyclodial Propulsor UAV
  • Figure 30 - Model Radio Controlled Helicopter for Police
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