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 |
10.1 |
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 |
17.1 |
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. |
19.1 |
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 |
20.1 |
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 |