市場調査レポート

スタンドオフ型IED・PBIED (人体装着式即席爆発装置)・VBIED (車両運搬式即席爆発装置) 探知技術:北米市場 (2015〜2019年)

Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection Technologies: North America Market 2015-2020

発行 Homeland Security Research Corp. 商品コード 336593
出版日 ページ情報 英文 215 Pages; 117 Tables & Figures
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=105.42円で換算しております。
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スタンドオフ型IED・PBIED (人体装着式即席爆発装置)・VBIED (車両運搬式即席爆発装置) 探知技術:北米市場 (2015〜2019年) Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection Technologies: North America Market 2015-2020
出版日: 2015年08月04日 ページ情報: 英文 215 Pages; 117 Tables & Figures
概要

IED (即席爆発装置) やPBIED (人体装着式即席爆発装置) やVBIED (車両運搬式即席爆発装置) は、その構造は単純ですが、巧妙に組み合わせて殺傷力を上げることにより、現代の戦場では最も対処が難しい攻撃手段となっています。特に近年のイラク・アフガニスタンでは、兵力に勝る米軍 (と同盟軍) に対し、敵軍側 (タリバーンなど) では自爆テロやVBIED、路肩に設置したIEDなどを使った単純な戦闘戦術で対抗しています。そこから得られた教訓を踏まえて、米軍ではIED・PBIED・VBIEDへの対処法の検討や、スタンドオフ型の探知技術の開発と全軍への配備を進めています。スタンドオフ型の探知技術は、爆発物を抱えている人員/搭載している車両を十分に離れた距離から探知することを目的としています。探知技術が十分に発達し、自爆テロやその他のテロ攻撃を安全な距離から事前に察知できるようになれば、国土安全保障や非対称戦闘の分野に大きな変化をもたらすでしょう。

当レポートでは、北米諸国のスタンドオフ型のIED (即席爆発装置)/PBIED (人体装着式即席爆発装置)/VBIED (車両運搬式即席爆発装置) 探知技術の市場について分析し、技術の概要や背景事情、主な市場機会と課題、各種のスタンドオフ型探知技術の概略、現在進行中の開発プロジェクト/新規技術、主要企業のプロファイルなどを調査すると共に、北米市場の今後の動向見通しについて推計しております。

第1章 エグゼクティブ・サマリー

市場分析

第2章 市場促進要因

第3章 市場阻害要因

第4章 SWOT分析

第5章 競争分析

第6章 ビジネスモデル・戦略

  • 経済条件の変化
  • 市場の階層:スタンドオフ型IED・PBIED・VBIED探知市場の場合
  • 世界の大手防衛産業の市場参入
  • 市場参入戦略
  • 価格弾力性
  • 企業合併・買収 (M&A)
  • 顧客側の立案・調達プロセス

産業

第7章 PBIED・VBIED・IED探知産業の課題

  • 技術的課題
  • 脅威特定に関する課題
  • スタンドオフ型システムの性能上の課題

第8章 スタンドオフ型IED・PBIED・VBIED探知技術に求められている安全域

第9章 PBIED・VBIED・IED探知:運営上の考慮事項

  • PBIED (人体装着式即席爆発装置) の場合
  • VBIED (車両運搬式即席爆発装置) の場合

第10章 ビジネス上の課題と機会

  • イントロダクション
  • スタンドオフ探知と爆発物の確認
  • PBIED/VBIEDのスタンドオフ型探知
  • 埋設型IEDと圧力式起爆装置
  • 兵員保護
  • 強化型ISR (情報・監視・偵察)
  • 爆発成形侵徹体 (EFP) 装置の探知
  • 埋設型IEDの探知
  • 雷管の探知・破壊
  • コマンドワイヤーの探知・破壊
  • 探知品質の改善
  • 多目的 (多脅威) スタンドオフ型探知
  • 探知コスト
  • 自動化の推進
  • 統合の容易化
  • 中型・多目的探知システム

技術

第11章 スタンドオフ型IED・PBIED・VBIED探知技術の比較

第12章 スタンドオフ型・歩行式/通過式脅威検知通路技術

第13章 オープンスペース向け・スタンドオフ型爆破物・武器探知技術

第14章 スタンドオフ型VBIED探知技術

第15章 スタンドオフ型のIED/PBIED/VBIED搭載UGV (無人走行車) 探知技術

第16章 マルチモーダル・一体型IED・PBIED・VBIED探知技術

第17章 開発中のパイプライン技術 (全13種類)

地域市場

第18章 北米市場:実績値 (過去2年間分) と予測値 (今後6年間分)

  • 技術別の市場内訳 (通算8年間分)
    • スタンドオフ型IED・PBIED・VBIED探知技術の市場
    • スタンドオフ型・歩行式爆発物・武器感知システムの市場
    • スタンドオフ型・通過式脅威検知通路の市場
    • スタンドオフ型PBIED探知の市場
    • スタンドオフ型VBIED探知の市場
    • スタンドオフ型IED探知の市場
    • その他の技術の市場
  • 収益源別の市場内訳 (通算8年間分)
    • スタンドオフ型IED・PBIED・VBIED探知市場:収益源別
    • 政府資金による研究開発 (R&D) 市場
    • 政府資金による検査・評価市場
    • 販売市場
    • アフターサービス市場

ベンダー

第19章 主要ベンダー

  • Alakai Defense Systems
    • 企業プロファイル
    • 製品および近年の活動
    • コンタクト情報
  • APSTEC Systems
  • BAE Systems
  • ChemImage Sensor Systems (CISS)
  • Cobham plc
  • Flir
  • Fluidmesh Networks
  • Genia Photonics
  • GE Security
  • Honeywell
  • IAI
  • Implant Sciences Corporation
  • Raytheon
  • SAGO Systems
  • TeraView
  • ThruVision Systems

付録

第20章 付録A:研究開発 (R&D) 計画・プロジェクト (全15件)

第21章 付録B:統合対IED防衛組織 (JIEDDO)

第22章 付録C:VBIED (車両運搬式即席爆発装置)

  • イントロダクション
  • VBIED技術
  • VBIED探知に関する考慮事項
  • VBIEDを使用しているテロ集団

第23章 付録D:誘導式空中IED

第24章 付録E:昨今 (2014年) のIED/PBIED/VBIED攻撃

第25章 付録F:自爆テロ

第26章 付録G:米国のPBIED・VBIED・IED探知市場のエコシステム

第27章 付録H:世界の短期的な地政学的展望

第28章 分析範囲・手法および免責事項

図表一覧

目次

2015-2020 Cumulative Market: $ 3.1 Billion

image1

The lethality combined with the simple construction of IED, Person-Borne (PBIED) and Vehicle-Borne Explosives (VBIED) has made them the single most difficult foe in the modern battlefield. As their employment increases, the risk to innocent civilian populations also increases. The U.S. human and financial toll of IED, PBIED & VBIEDs has become a staggering reality worldwide.

In recent encounters in Iraq and Afghanistan, wherever the U.S. (and their allies) had overwhelming combat power, their adversaries (the Taliban and Iraqi insurgents) resorted to a simple combat tactic: the use of suicide bombers, vehicle-borne explosives and roadside IEDs. Lessons learned from these two wars drove and continue to drive the Pentagon to reverse this asymmetric warfare, to develop, procure and proliferate new techno-tactical ways and means using standoff explosives detection technologies throughout the U.S. military.

The purpose of standoff PBIED, VBIED and weapon detection technologies is to determine at a safe distance if a human subject or a vehicle is carrying explosives or weapons. Concealed explosives detection is perceived as one of the greatest challenges facing the counter-terror and military communities. The threat posed by suicide bombers is the key to the emergence of transformational counter-terror technologies and tactics. The maturity and deployment of advanced standoff detection technologies, capable of detecting suicide and other terrorists at a safe distance, will change the landscape of homeland security and asymmetric warfare.

The Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection: Technologies & North America Market - 2015-2020 report has been explicitly customized decision- makers to identify business opportunities, developing technologies, market trends and risks, as well as to benchmark business plans.

The report examines each dollar spent in the market via 2 orthogonal money trails:

1. By 6 Technology Markets:

  • Walk-By Explosives & Weapon Sensing Systems
  • Pass-through Threat Detection Corridors
  • Standoff PBIED Detection
  • Standoff VBIED Detection
  • Standoff IED Detection
  • Other Technologies

2. By 4 Revenue Sources:

  • Government Funded R&D
  • Government Funded Testing & Evaluation
  • New Systems Sales
  • Aftersale Revenues

This Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection: Technologies & North America Market - 2015-2020 report is a resource for executives with interests in the industry. It has been explicitly customized for decision-makers to enable them to identify business opportunities, developing technologies, market trends and risks, as well as to benchmark business plans.

Questions answered in this 215-page report include:

  • What will the U.S. & Canada market size be in 2015-2020?
  • What are the main Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection technology trends?
  • Where and what are the U.S. & Canada market opportunities?
  • What are the U.S. & Canada market drivers and inhibitors?
  • Who are the key vendors?
  • What are the business and technological challenges?

The Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection: Technologies & North America Market - 2015-2020 report presents in 215 pages, 20 tables and 97 figures, analysis of current and pipeline technologies and 18 leading vendors. This report, granulated into 10 submarkets, provides for each submarket 2013-2014 data and analyses, and projects the 2015-2020 market and technologies from several perspectives, including:

  • Business opportunities and challenges
  • SWOT analysis
  • Market analysis (e.g., market dynamics, market drivers and inhibitors)

The report presents:

  • Current and pipeline technologies:
    • 1. Standoff Walk-by & Pass-through Threat Detection Corridors:
      Walk-through Corridors - Active Electromagnetic Weapons Detection, Passive Electro Magnetic Signature Corridor, Standoff Passive MMWave Doorways, Focal Plane Array Passive MMWave, Walk-through Corridors - Fourier Transform Infrared (FTIR) Spectroscopy Systems, Covert Walk-through Biometric Identification Corridors, Fused Standoff PBIED Detection &Video-based Biometrics, Walk-by Active Centimeter Range (Ku band) Microwave System
    • 2. Open Space Standoff Explosives & Weapon Detection:
      Bi-Modal Standoff Open Space IED, PBIED, VBIED - Explosives & Weapon Detection Systems
    • 3. Standoff Vehicle-Borne Explosives Detection:
      Standoff Raman Spectroscopy Based VBIED Detection
    • 4. UGV Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection:
      UGV detection Expectation Management systems, UGV Management software, UGV Mobility technology, Pipeline UGV IED, PBIED & VBIED Detection technologies, Cobham Antenna Technology, IAI CIMS Systems, Standoff MMWave IED Detection robots.
    • 5. Multi-Modal Fused Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection:
      The CounterBomber Technology Standoff Active MMWave, Standoff Passive MMWave Imaging, Standoff MMWave PBIED Gait signatures Detection technologies, Infra-red Standoff Detection, Standoff Terahertz, Laser-Based Explosives Detection technologies, Standoff Raman Spectroscopy, Standoff Non-linear Wave Mixing Detection Technology, Standoff Light Detection and Ranging (LIDAR) Explosives Detection, Triple Modality Standoff Detection Technology, Differential Phase-Contrast X-ray Imaging, The University of Puerto Rico Advanced standoff Detection Techniques, Rydberg Spectroscopy/Microwave Scattering Based Detection
  • Key Vendors: Alakai Defense Systems, APSTEC Systems, BAE Systems, Boeing, ChemImage Sensor Systems (CISS), Cobham plc, Flir, Fluidmesh Networks, Genia Photonics, GE Security, Honeywell, IAI, Implant Sciences Corporation, Raytheon, SAGO Systems, TeraView, ThruVision Systems, Rafael.

For readers who wish to acquire more information, the report includes 8 in-depth appendices:

  • 1. R&D Programs and Projects
  • 2. The Improvised Explosive Device Defeat Organization (JIEDDO)
  • 3. Vehicle Borne Improvised Explosive Devices (VBIED)
  • 4. Guided Aerial IEDs
  • 5. 2014 IED, PBIED & VBIED Attacks
  • 6. Suicide Terrorism
  • 7. The U.S. PBIED, VBIED & IED Detection Eco-System
  • 8. Short Term Global Geopolitical Outlook

Table of Contents

1 Executive Summary

  • 1.1 Major Findings
  • 1.2 Major Conclusions
  • 1.3 Standoff IED, PBIED & VBIED Detection Technologies
  • 1.4 North America Standoff IED, Person-Borne & Vehicle-Borne Explosives & Weapon Detection Market - 2015-2020

MARKET ANALYSIS

2 Market Drivers

3 Market Inhibitors

4 SWOT Analysis

  • 4.1 Strengths
  • 4.2 Weaknesses
  • 4.3 Opportunities
  • 4.4 Threats

5 Competitive Analysis

6 Business Models & Strategies

  • 6.1 Variable Economic Conditions
  • 6.2 Standoff IED, PBIED & VBIED Detection Market Tiers
  • 6.3 Defense Primes & Mega Corporations' Inroads into the Standoff IED, PBIED & VBIED Detection Market
  • 6.4 Entry Strategies Toward the Standoff IED, PBIED & VBIED Detection Arena
  • 6.5 Price Elasticity
  • 6.6 Mergers and Acquisitions (M&A)
  • 6.7 Customer Planning & Procurement Process

INDUSTRY

7 PBIED, VBIED & IED Detection Industry Challenges

  • 7.1 Technological Challenges
  • 7.2 Threat Identification Challenges
  • 7.3 Standoff System Performance Challenges

8 Safe Range Required by Standoff IED, PBIED & VBIED Detection Technologies

9 PBIED, VBIED & IED Detection: Operational Considerations

  • 9.1.1 Person-Borne Explosive Devices (PBIEDs): Standoff Detection Challenges
  • 9.1.2 Vehicle-Borne Improvised Explosive Devices (VBIED) Standoff Detection Challenges

10 Business Challenges and Opportunities

  • 10.1 Introduction
  • 10.2 Standoff Detection and Confirmation of Explosives
  • 10.3 Standoff Detection of Person-Borne & Vehicle-Borne IEDs
  • 10.4 Buried lED and Pressure Initiation Device
  • 10.5 Force Protection
  • 10.6 Enhanced Intelligence, Surveillance & Reconnaissance (ISR)
  • 10.7 Explosively Formed Penetrator Device Detection
  • 10.8 Deep Buried lED Detection
  • 10.9 Blasting Cap Detect and Defeat
  • 10.10 Command Wire Detection and Defeat
  • 10.11 Improved Detection Quality
  • 10.12 Multiple-Threat Standoff Detection
  • 10.13 Cost of Detection
  • 10.14 Increased Automation
  • 10.15 Ease of Integration
  • 10.16 Medium Capacity, Multi-Threat Detection Systems

TECHNOLOGIES

11 Comparison of Standoff IED, PBIED & VBIED Detection Technologies

12 Standoff Walk-by & Pass-through Threat Detection Corridors Technologies

  • 12.1 Walk-through Corridors: Active Electromagnetic Weapons Detection Present & Pipeline Technologies
  • 12.2 Passive Electro Magnetic Signature Corridor
  • 12.3 Standoff Passive MMWave Doorways
  • 12.4 Focal Plane Array Passive MMWave
  • 12.4.1 Walk-by Passive MMWave Imaging System
  • 12.5 Walk-through Corridors: Fourier Transform Infrared (FTIR) Spectroscopy Systems
  • 12.6 Covert Walk-through Biometric Identification Corridors
  • 12.7 Fused Standoff PBIED Detection &Video-based Biometrics
  • 12.8 Walk-by Active Centimeter Range (Ku band) Microwave System

13 Open Space Standoff Explosives & Weapon Detection Technologies

  • 13.1 Introduction
  • 13.2 Open Space Standoff Explosives & Weapon Detection Technologies Challenges
  • 13.3 Bi-Modal Standoff IED, PBIED & VBIED Detection Systems
    • 13.3.1 Sample: Standoff Fused MMWave & Infrared System

14 Standoff Vehicle-Borne Explosives Detection: Technologies

  • 14.1 Overview
  • 14.2 VBIED Detection: Challenges
  • 14.3 Example: Raman Spectroscopy Based Vehicle Standoff Detector - P. Eye

15 Standoff IED, PVIED & VBIED UGV Detection Technologies

  • 15.1 UGV Expectation Management
  • 15.2 UGV Requirements Management
  • 15.3 UGV Mobility
  • 15.4 UGV Function
  • 15.5 The Human Operator
  • 15.6 Future IED, PBIED & VBIED Detection UGV
  • 15.7 Cobham Antenna Systems Standoff IED, PVIED & VBIED UGV IED Detection Technology
  • 15.8 Israel Aerospace Industries CIMS System
  • 15.9 Rafael - EZ-K9e Stand-off MMWave IED Detection System

16 Multi-Modal Fused IED, PBIED and VBIED Detection Technologies

  • 16.1 Technology Review
  • 16.2 Example: The CounterBomber® System

17 Standoff IED, PBIED & VBIED Detection Pipeline Technologies

  • 17.1 Introduction
  • 17.2 Standoff Active MMWave PBIED, VBIED & IED Detection
    • 17.2.1 Principle of Operation
    • 17.2.2 Active Standoff MMWave Imaging Systems
    • 17.2.3 Disadvantages of Standoff Active MMWave Technology
  • 17.3 Standoff Passive MMWave Imaging
    • 17.3.1 Principle of Operation
    • 17.3.2 Advantages of a Passive Millimeter Wave (PMMW) System:
    • 17.3.3 TREX Enterprises Standoff Passive MMWave Technology
    • 17.3.4 GEN2 Standoff Passive MMWave PBIED Detection Technology
    • 17.3.5 Standoff "Illuminators of Opportunity" Passive MMWave Imaging
    • 17.3.6 Mechanically Scanning Standoff MMWave PBIED, VBIED & IED Detection
  • 17.4 Standoff MMWave PBIED Gait Characteristics Detection
  • 17.5 Infra-red Standoff Detection Technologies
    • 17.5.1 The DHS-Toyota Standoff IR Detection System
  • 17.6 Standoff Terahertz Explosives & Weapons Detection Technologies
    • 17.6.1 Overview
    • 17.6.2 Standoff Terahertz Contraband Detection Technology
    • 17.6.3 Terahertz Detection Advantages over Other Technologies
    • 17.6.4 Standoff Active Terahertz Heterodyne Concealed Explosives & Weapons Standoff Detection Imagers
    • 17.6.5 Standoff Active Terahertz Absorption Spectroscopy Using Principal Component Analysis
    • 17.6.6 Example: Active Terahertz Standoff Explosives Detection System of TeraView
    • 17.6.7 Passive Terahertz Standoff Weapons & Explosives Detection
    • 17.6.8 Passive Terahertz Detection System: ThruVision Systems
  • 17.7 Laser-Based Standoff Explosives Detection
    • 17.7.1 Introduction
    • 17.7.2 Standoff Laser-induced Breakdown Spectroscopy (LIBS)
    • 17.7.3 Next Generation Standoff LIBS Systems
    • 17.7.4 Laser-Based Molecular Signatures Technologies
    • 17.7.5 Laser-Based Stimulated Raman Adiabatic Passage (STIRAP) Technologies
    • 17.7.6 External Cavity Quantum Cascade Lasers Standoff IED Detection
    • 17.7.7 Standoff Laser Induced Fluorescence (PLP/LIF) Technology
    • 17.7.7.1 PLP/LIF Standoff Explosives Detection: Principle of Technology
    • 17.7.7.2 Next-Generation Standoff PLP/LIF Systems
  • 17.8 Standoff Raman Spectroscopy
    • 17.8.1 Introduction
    • 17.8.2 Standoff Coherent Anti-Stokes Raman Spectroscopy
    • 17.8.3 Standoff Resonant Raman Spectroscopy
    • 17.8.4 Next-Generation Standoff CARS Systems
  • 17.9 Standoff Non-linear Wave Mixing Detection Technology
    • 17.9.1 Principle of Operation
    • 17.9.2 Next-Generation Standoff Non-linear Wave Mixing PBIED, VBIED & IED Detection Technology
  • 17.10 Standoff Light Detection and Ranging (LIDAR) Explosives Detection
    • 17.10.1 Overview
    • 17.10.2 Next-Generation LIDAR Systems
  • 17.11 Triple Modality Standoff Detection Technology
  • 17.12 Differential Phase-Contrast X-ray Imaging
  • 17.13 The University of Puerto Rico Advanced Detection Techniques R&D
  • 17.14 Rydberg Spectroscopy/Microwave Scattering Based Detection

REGIONAL MARKET

18 North America Standoff IED, PBIED & VBIED Detection Market - 2013-2014 Data, 2015-2020 Forecast

  • 18.1 North America Standoff IED, PBIED & VBIED Detection Market by Technology
    • 18.1.1 North America Standoff IED, PBIED & VBIED Detection Technology Markets - 2013-2020
    • 18.1.2 North America Standoff Walk-by Explosives & Weapon Sensing Systems Market - 2013-2020
    • 18.1.3 North America Pass-through Standoff Threat Detection Corridors Market - 2013-2020
    • 18.1.4 North America Standoff Person-Borne Explosives Detection Market - 2013-2020
    • 18.1.5 North America Standoff Vehicle-Borne Explosives Detection Market - 2013-2020
    • 18.1.6 North America Standoff IED Detection Market - 2013-2020
    • 18.1.7 North America Standoff IED, PBIED & VBIED Detection Other Technologies Market - 2013-2020
  • 18.2 North America Standoff IED, PBIED & VBIED Detection Market by Revenue Source
    • 18.2.1 North America Standoff IED, PBIED & VBIED Detection Revenue Source - 2013-2020
    • 18.2.2 North America Standoff IED, PBIED & VBIED Detection Government Funded R&D Market - 2013-2020
    • 18.2.3 North America Standoff IED, PBIED & VBIED Detection Government Funded Testing & Evaluation Market - 2013-2020
    • 18.2.4 North America Standoff IED, PBIED & VBIED Detection Sales Market - 2013-2020
    • 18.2.5 North America Standoff IED, PBIED & VBIED Detection Aftersales Market - 2013-2020

VENDORS

19 Major Vendors

  • 19.1 Alakai Defense Systems
    • 19.1.1 Company Profile
    • 19.1.2 Products & Recent Activities
    • 19.1.3 Contact Info
  • 19.2 APSTEC Systems
    • 19.2.1 Company Profile
    • 19.2.2 Products
    • 19.2.3 Products & Recent Activities
    • 19.2.4 Contact Info.
  • 19.3 BAE Systems
    • 19.3.1 Company Profile
    • 19.3.2 Products & Recent Activities
    • 19.3.3 Contact Info
  • 19.4 Boeing
    • 19.4.1 Company Profile
    • 19.4.2 Products & Recent Activities
    • 19.4.3 Contact Info
  • 19.5 ChemImage Sensor Systems (CISS)
    • 19.5.1 Company Profile
    • 19.5.2 Standoff IED Detection Products
    • 19.5.3 Contact Info
  • 19.6 Cobham plc
    • 19.6.1 Company profile
    • 19.6.2 Products & Recent Activities
    • 19.6.3 Contact Info.
  • 19.7 Flir
    • 19.7.1 Company Profile
    • 19.7.2 Products & Recent Activities
    • 19.7.3 Contact Info
  • 19.8 Fluidmesh Networks
    • 19.8.1 Company Profile
    • 19.8.2 Products & Recent Activities
    • 19.8.3 Contact Info
  • 19.9 Genia Photonics
    • 19.9.1 Company Profile
    • 19.9.2 Products & Recent Activities
    • 19.9.3 Contact Info.
  • 19.10 GE Security
    • 19.10.1 Company Profile
    • 19.10.2 Products & Recent Activities
    • 19.10.3 Contact Info
  • 19.11 Honeywell
    • 19.11.1 Company Profile
    • 19.11.2 Contact Info
  • 19.12 IAI
    • 19.12.1 Company Profile
    • 19.12.2 Products & Recent Activities
    • 19.12.3 Contact Info
  • 19.13 Implant Sciences Corporation
    • 19.13.1 Company Profile
    • 19.13.2 Products
    • 19.13.3 Contact Info
  • 19.14 Raytheon
    • 19.14.1 Company Profile
    • 19.14.2 Products & Recent Activities
    • 19.14.3 Contact Info
  • 19.15 SAGO Systems
    • 19.15.1 Company Profile
    • 19.15.2 Standoff IED Detection Products
    • 19.15.3 Contact Info
  • 19.16 TeraView
    • 19.16.1 Company Profile
    • 19.16.2 Products & Recent Activities
    • 19.16.3 Contact Info
  • 19.17 ThruVision Systems
    • 19.17.1 Company Profile
    • 19.17.2 Standoff IED Detection Products
    • 19.17.3 Contact Info

APPENDICES

20 Appendix A: Standoff IED, PBIED & VBIED Detection R&D Programs and Projects

  • 20.1 DARPA, Standoff IED Detection MEDS Program
  • 20.2 Algorithm and Analysis of Raw Images Project
  • 20.3 Detection Technology and Material Science Project
  • 20.4 Explosives Trace Detection Project
  • 20.5 Person-Borne Improvised Explosive Devices (PBIED) Detection Project
  • 20.6 Predictive PBIED, VBIED & IED Detection Project
  • 20.7 Vehicle-Borne Improvised Explosive Devices (VBIED) Detection Project
  • 20.8 Homemade Explosives Characterization Project
  • 20.9 IED Risk Prediction Project
  • 20.10 VBIED Full Mission Characterization Project
  • 20.11 Cross-Cultural Validation of SPOT (Screening Passengers by Observation Techniques) Behaviors Project
  • 20.12 Future Attribute Screening Technologies Mobile Module (FAST M2)
  • 20.13 Hostile Intent Detection-Automated Prototype Project
  • 20.14 Passive Methods for Precision Behavioral Screening Project
  • 20.15 Violent Intent Modeling and Simulation (VIMS) Project

21 Appendix B: The Improvised Explosive Device Defeat Organization (JIEDDO)

22 Appendix C: Vehicle Borne Improvised Explosive Devices (VBIED)

  • 22.1 Introduction
  • 22.2 VBIED Technologies
  • 22.3 VBIED Detection Considerations
  • 22.4 Terror Groups that Use VBIED

23 Appendix D: Guided Aerial IEDs

24 Appendix E: Recent (2014) IED, PBIED & VBIED Attacks

25 Appendix F: Suicide Terrorism

26 Appendix G: The U.S. PBIED, VBIED & IED Detection Eco-System

27 Appendix H: Short Term Global Geopolitical Outlook

28 SCOPE, METHODOLOGY AND DISCLAIMER

  • 28.1 Research Scope
  • 28.2 Research Methodology
  • 28.3 Disclaimer & Copyright

Tables

  • Table 1 Standoff IED, PBIED & VDIED Detection Technologies
  • Table 2 North America Standoff IED, PBIED & VBIED Detection Market [$M] by Technology Market - 2013-2020
  • Table 3 Evacuation Distance by Threat and Explosive Mass
  • Table 4 Comparison of Standoff IED, PBIED & VBIED Detection Technologies
  • Table 5 Retica Standoff Biometric System Performance
  • Table 6 Standoff IED, PVIED & VBIED UGV Detection Technology: Features & Benefits
  • Table 7 Mechanically Scanning MMWave Camera Performance
  • Table 8 Comparison of Laser Based Standoff Explosives Detection Technologies
  • Table 9 North America Standoff IED, PBIED & VBIED Detection Market [$M] by Technology Market - 2013-2020
  • Table 10 North America Standoff Walk-by Explosives & Weapon Sensing Systems Market [$M] & AGR [%] - 2013-2020
  • Table 11 North America Pass-through Standoff Threat Detection Corridors Market [$M] & AGR [%] - 2013-2020
  • Table 12 North America Standoff Person-Borne Explosives Detection Market [$M] & AGR [%] - 2013-2020
  • Table 13 North America Standoff Vehicle-Borne Explosives Detection Market [$M] & AGR [%] - 2013-2020
  • Table 14 North America Standoff IED Detection Market [$M] & AGR [%] - 2013-2020
  • Table 15 North America Standoff IED, PBIED & VBIED Detection Other Technologies Market [$M] & AGR [%] - 2013-2020
  • Table 16 North America Standoff IED, PBIED & VBIED Detection Market [$M] by Revenue Source - 2013-2020
  • Table 17 North America Standoff IED, PBIED & VBIED Detection Government Funded R&D Market [$M] & AGR [%] - 2013-2020
  • Table 18 North America Standoff IED, PBIED & VBIED Detection Government Funded Testing & Evaluation Market [$M] & AGR [%] - 2013-2020
  • Table 19 North America Standoff IED, PBIED & VBIED Detection Sales Market [$M] & AGR [%] - 2013-2020
  • Table 20 North America Standoff IED, PBIED & VBIED Detection Aftersales Market [$M] & AGR [%] - 2013-2020

Figures

  • Figure 1 Global PBIED and VBIED Suicide Attack - 2003-2014
  • Figure 2 PBIED and VBIED Suicide Attacks in 5 Countries - 2003-2014
  • Figure 3 Global Distribution PBIED and VBIED Suicide Attacks, 2014
  • Figure 4 2014 PBIED and VBIED Suicide Attacks by PBIED or VBIED (left) and by Targets (Right)
  • Figure 5 Improvised Explosives Device Kill Chain
  • Figure 6 Suicide Vest PBIEDs Configurations
  • Figure 7 Suicide Attack Sequence
  • Figure 8 Standoff & Non-Standoff IED Bulk Detection Technologies
  • Figure 9 Standoff IED Trace Detection Technologies
  • Figure 10 People Screening Portals - Threats and Associated Detection Technologies
  • Figure 11 Standoff IED, PBIED & VBIED Detection Market - Competitiveness Analysis
  • Figure 12 A New Standoff IED, PBIED & VBIED Detection Product: Technology Assessment Process
  • Figure 13 Customer Planning & Procurement Process
  • Figure 14 IED Attack Timeline
  • Figure 15 PBIED, VBIED & IED Detection: Performance Criteria
  • Figure 16 Spectrum of Evolving PBIED, VBIED & IED Detection Technologies
  • Figure 17 Standoff Electromagnetic Concealed Weapons Detection
  • Figure 18 Magnetic Signature Analysis System: Functional Block Diagram
  • Figure 19 Covert MMWave Sensor at a Door
  • Figure 20 Screening of Hand-held Baggage
  • Figure 21 Focal Plane Array Passive Standoff MMWave System
  • Figure 22 A Walk-by Passive MMWave Imaging System
  • Figure 23 Covert Walk-by Passive MMWave Images
  • Figure 24 Example of FTIR Application at Border Checkpoint Facilities
  • Figure 25 Biometric PBIED Detection Corridor
  • Figure 26 Field of View of a Fused Video Surveillance and Biometrics
  • Figure 27 Active MMWave HSR Bi-portal
  • Figure 28 Active MMWave HSR Bi-Portal on Mass Transit Object
  • Figure 29 Automatic PBIED Detection of Multiple Persons, Test Ground
  • Figure 30 Cobham Antenna Systems Standoff IED, PVIED & VBIED UGV IED Detection System
  • Figure 31 Cobham Antenna Systems Standoff IED, PVIED & VBIED UGV IED Detection Operation
  • Figure 32 IAI CIMS System
  • Figure 33 IAI CIMS System Performance
  • Figure 34 Multi-Modal Fused Standoff Explosives Detection System
  • Figure 35 The CounterBomber® System
  • Figure 36 Atmospheric Transmission Windows of Electromagnetic Radiation
  • Figure 37 Active Standoff MMWave Imaging Technologies Using Separate and Integrated Sources of Scene Illumination
  • Figure 38 Standoff Open Space Threat Detection
  • Figure 39 Active Standoff MMWave Imaging Experiment
  • Figure 40 A Passive MMWave Imager
  • Figure 41 Standoff MMWave Technology Used in a Tactical Checkpoint Environment
  • Figure 42 Passive MM-Wave Image of a Person with a Concealed Weapon
  • Figure 43 CCTV, IR & MMWave Images
  • Figure 44 PMC-2 Imager, System Architecture
  • Figure 45 PMC-2 Imager System Flowchart
  • Figure 46 Standoff Infrared Radiation Measurement from a Human
  • Figure 47 Open-Path FTIR Method
  • Figure 48 Top View of Toyota PBIED, VBIED & IED Detection Zones
  • Figure 49 Illustration of Sensor Locations at Toyota Center
  • Figure 50 Standoff IR Crowd Surveillance
  • Figure 51 DHS-Toyota Standoff System Architecture
  • Figure 52 The Electromagnetic Spectrum Showing the THz-Region
  • Figure 53 "Terahertz Fingerprints" of Explosives
  • Figure 54 "Terahertz Fingerprints" of Clothing
  • Figure 55 Ceiling Mounted Standoff Passive Terahertz Imager
  • Figure 56 Illustration of a Terahertz Standoff Imaging System at 50m Target Distance
  • Figure 57 Basic Terahertz Standoff Person-borne Explosives & Weapon Detection Technology Concept
  • Figure 58 Block Diagram of Frequency Modulate Continuous Wave (FMCW) RADAR
  • Figure 59 The Sub MMWave Multiplier and Mixer
  • Figure 60 Radar Photograph and Optics Schematic
  • Figure 61 Active Terahertz Concealed Explosives & Weapons Standoff Detection
  • Figure 62 A Standoff Passive Terahertz Weapons and Explosives System
  • Figure 63 Short Range Standoff Vehicle-Borne Explosives Detection Setup
  • Figure 64 Vapor Pressure of Important Explosives
  • Figure 65 LIBS Principle of Operation
  • Figure 66 Standoff Laser-Induced Breakdown Spectroscopy Real-time Explosive Detection
  • Figure 67 LIBS Emission Temporal Resolution as a Tool to Discriminate Between Different Explosives.
  • Figure 68 Absorbance Spectra of Various Explosives and Tuning Range of External Cavity Quantum Cascade Laser Source
  • Figure 69 PLP/LIF Technology: Principle of Operation
  • Figure 70 Fluorescence Energy Levels
  • Figure 71 Micro Raman Spectroscopy
  • Figure 72 Example of Raman Spectroscopy Systems
  • Figure 73 Comparison of Excitation Wavelengths for TNT
  • Figure 74 Comparison Between 4- Nitrotoluene & 2,4,6-Trinitrotoluene
  • Figure 75 Some LIDAR Measurement Techniques Distances are not Applicable to Explosives
  • Figure 76 North America Standoff IED, PBIED & VBIED Detection Market [$M] by Technology Market - 2013-2020
  • Figure 77 North America Standoff Walk-by Explosives & Weapon Sensing Systems Market [$M] - 2013-2020
  • Figure 78 North America Pass-through Standoff Threat Detection Corridors Market [$M] - 2013-2020
  • Figure 79 North America Standoff Person-Borne Explosives Detection Market [$M] - 2013-2020
  • Figure 80 North America Standoff Vehicle-Borne Explosives Detection Market [$M] - 2013-2020
  • Figure 81 North America Standoff IED Detection Market [$M] - 2013-2020
  • Figure 82 North America Standoff IED, PBIED & VBIED Detection Other Technologies Market [$M] - 2013-2020
  • Figure 83 North America Standoff IED, PBIED & VBIED Detection Market [$M] by Revenue Source - 2013-2020
  • Figure 84 North America Standoff IED, PBIED & VBIED Detection Government Funded R&D Market [$M] - 2013-2020
  • Figure 85 North America Standoff IED, PBIED & VBIED Detection Government Funded R&D Market AGR [%] - 2013-2020
  • Figure 86 North America Standoff IED, PBIED & VBIED Detection Government Funded Testing & Evaluation Market [$M] - 2013-2020
  • Figure 87 North America Standoff IED, PBIED & VBIED Detection Government Funded Testing & Evaluation Market AGR [%] - 2013-2020
  • Figure 88 North America Standoff IED, PBIED & VBIED Detection Sales Market [$M] - 2013-2020
  • Figure 89 North America Standoff IED, PBIED & VBIED Detection Sales Market AGR [%] - 2013-2020
  • Figure 90 North America Standoff IED, PBIED & VBIED Detection Aftersales Market [$M] - 2013-2020
  • Figure 91 North America Standoff IED, PBIED & VBIED Detection Aftersales Market AGR [%] - 2013-2020
  • Figure 92 The IAI SIMS System
  • Figure 93 Global Distribution PBIED and VBIED Suicide Attacks, 2014
  • Figure 94 2014 PBIED and VBIED Suicide Attacks by PBIED or VBIED (left) and by Targets (Right)
  • Figure 95 Terrorist Entities by Region of Origin
  • Figure 96 Terror Attacks by Geography and Terror Organization 2013
  • Figure 97 World Muslim Population

Company Profiles

  • Alakai Defense Systems
  • APSTEC Systems
  • BAE Systems
  • Boeing
  • ChemImage Sensor Systems (CISS)
  • Cobham plc
  • Flir
  • Fluidmesh Networks
  • Genia Photonics
  • GE Security
  • Honeywell
  • IAI
  • Implant Sciences Corporation
  • Raytheon
  • SAGO Systems
  • TeraView
  • ThruVision Systems
  • Rafael

Technologies

  • Bi-Modal Standoff Open Space IED
  • Cobham Antenna Technology
  • Covert Walk-through Biometric Identification Corridors
  • Differential Phase-Contrast X-ray Imaging
  • Focal Plane Array Passive MMWave
  • Fused Standoff PBIED Detection &Video-based Biometrics
  • IAI CIMS Systems
  • Infra-red Standoff Detection
  • Laser-Based Explosives Detection technologies
  • PBIED & VBIED Detection technologies
  • Pipeline UGV IED
  • Rydberg Spectroscopy/Microwave Scattering Based Detection
  • Signature Corridor
  • Standoff Light Detection and Ranging (LIDAR) Explosives Detection
  • Standoff MMWave IED Detection robots
  • Standoff MMWave PBIED Gait signatures Detection technologies
  • Standoff Non-linear Wave Mixing Detection Technology
  • Standoff Passive MMWave Doorways
  • Standoff Passive MMWave Imaging
  • Standoff Raman Spectroscopy Based VBIED Detection
  • Standoff Terahertz
  • The CounterBomber Technology Standoff Active MMWave
  • The University of Puerto Rico Advanced standoff Detection Techniques
  • Triple Modality Standoff Detection Technology
  • UGV Management software
  • UGV Mobility technology
  • UGV detection Expectation Management systems
  • VBIED - Explosives & Weapon Detection Systems
  • Walk-by Active Centimeter Range (Ku band) Microwave System
  • Walk-through Corridors - Fourier Transform Infrared (FTIR) Spectroscopy Systems
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