Suicide Terror Attacks by Attack Method (%)
Source: The Institute for Economics & Peace 2019
The purpose of standoff PBIED, VBIED and weapon detection technologies is to determine, at a safe distance, if a terrorist or a vehicle is carrying explosives or weapons. Concealed explosives detection is perceived as one of the greatest challenges facing the internal security 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.
A decade of artificial intelligence, facial recognition and big data deep learning research have produced formidable technologies that are providing immense benefit to the standoff IED detection community. Future artificial intelligence, facial recognition and big data deep learning systems have the potential for transformative impact on the IED threats. It will be rightfully expected to handle complex IED detection tasks and responsibilities, engage in meaningful communication, and improve awareness through experience.
Standoff IED detection includes both covert and overt methods for sensing the presence of IED, explosives, VBIED, weapons and PBIED when vital assets and those individuals monitoring, operating & responding to the means of detection are physically separated from the terrorists. The physical separation should put the individuals and vital assets outside the zone of severe damage from a potential detonation of the device or weapon.
IED, PBIED and VBIED attack threats are a global problem, driving a growing number of security and defense forces to acquire cutting-edge standoff IED, PBIED, Weapons & VBIED detection equipment.
According to the Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies Market 2020-2025 report, the market is expected to grow from $XX Billion in 2018 to $XX billion in 2025 at a CAGR of XX%.
This 258 -page market report is the most comprehensive review of the global Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies market available today. The objective of this report is to provide today’s strategic decision-makers with an expert 360-degree, time-sensitive, detailed view of this interconnected market.
The Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies Market – 2020-2025 report presents a thorough analysis of 65 submarkets segmented by 8 technologies, 5 revenue sources and 5 regional markets. Furthermore, the report provides updated extensive data of 16 leading Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies vendors.
Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies market growth is driven by the following factors:
- IED terror threats
- Asymmetrical warfare
- New and maturing technologies, (e.g., Artificial Intelligence, Big Data & Data Analysis, Machine Learning Based Automated Battle Field Interpretation, Smart Sensors, and Facial Biometrics technologies)
- President Trump and President Xi Jinping national security agendas
Why Buy Market Report?
A. Questions answered in this report include:
- What are the Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies market size and what are the market trends during 2020-2025?
- What are the submarkets that provide attractive business opportunities?
- What drives the customers to purchase Standoff Detection Technologies solutions and services?
- What are the technology & services trends?
- What is the 8 technology markets SWOTs (Strengths, Weaknesses, Opportunities and Threats)?
- What are the challenges to market penetration & growth
B. The Global Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies Market size data is analyzed via 3 independent key perspectives.
With a highly fragmented market we address the “money trail” – each dollar spent in the global Standoff IED, Explosives, VBIED, PBIED & Weapon Detection Technologies market is analyzed and crosschecked via 3 orthogonal viewpoints:
- By 8 Technologies:
- Walk-By Explosives & Weapon Sensing Systems
- Pass-through Threat Detection Corridors
- Standoff PBIED Detection
- Standoff VBIED Detection
- Standoff IED Detection
- Standoff Facial Recognition
- Fused Standoff Explosives Detection & Biometrics Systems
- Artificial Intelligence, Big-Data based Deep-Learning
- By 5 Regional Markets:
- North America
- Latin America
- Middle East & Africa
- Asia Pacific
- By 5 Revenue Sources Market:
- Product Sales
- System Installation & Commissioning
- Planning & Consulting Services
- Aftersale Service & Upgrades
- Training Services
C. Detailed market analysis frameworks for each of the market sectors including:
- Market drivers & inhibitors
- Business opportunities
- SWOT analysis
- Competitive analysis
- Business environment
- The 2020-2025 market
D.The Report present dozens of Current and Pipeline Technologies Including:
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, Bi-Modal Standoff Open Space IED, PBIED, VBIED – Explosives & Weapon Detection Systems, Standoff Raman Spectroscopy Based VBIED 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. Standoff Active MMWave IED, Standoff Passive MMWave Imaging, Standoff MMWave PBIED Gait signatures Detection technologies, Infra-red Standoff Detection, Standoff Terahertz, Artificial Intelligence, Big Data & Data Analysis, Machine Learning Based Automated Battle Field Interpretation, Smart Sensors, Facial Biometrics 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.
E. The report provides updated extensive data on 16 leading vendors (including companies’ profile, recent annual revenues, and contact info.):