Growth Opportunities of Emerging Technologies Impacting CBRNE Applications

Growth Opportunities of Emerging Technologies Impacting CBRNE Applications

Sensors, Drones, Robotics, and Wearables Drive Opportunities in the CBRNE Industry

RELEASE DATE
30-Nov-2020
REGION
Global
Deliverable Type
Technology Research
Research Code: D9C8-01-00-00-00
SKU: ES01171-GL-TR_24990
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Growth Opportunities of Emerging Technologies Impacting CBRNE Applications
Published on: 30-Nov-2020 | SKU: ES01171-GL-TR_24990

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Opportunities for chemical, biological, radiological, nuclear, and explosive (CBRNE) threat agent detection systems are being largely driven by increasing threats of terrorist attacks.
Chemical threats involve use of harmful and toxic industrial chemicals or materials and release of poisonous gases. Biological threats include premeditated attacks by deliberately releasing hazardous bioagents, such as, biological toxins. Nuclear and radiological attacks pose an enormous menace and will result in catastrophic losses.
There are also needs and opportunities for improved ability to determine the chemical attribution signature (CAS) of chemical threat agents, trace the origins of toxic chemicals and related materials to their source, and to enhance sample collection and preservation of CAS at the scene.
CBRNE agents cause intense damage that could lead to mass civilian casualties, economic degradation, demolition of critical infrastructure, and contamination of large areas.

Key Questions Answered in the Technology and Innovation Study
What is the significance of CBRNE technology and its impact?
What are the current trends and developments that are driving the opportunities for CBRNE technologies in the civilian market?
What are the technology capabilities of various emerging technologies boosting the CBRNE threat detection?
Key innovations and their application impact
IP and Funding scenario
Growth opportunities and critical success factors
What sort of strategies do OEMs need to embrace to gain entry and sustain in the competitive marketplace?

The Strategic Imperative 8™

The Strategic Imperative 8™

About the Growth Pipeline Engine™

Growth Opportunities Fuel the Growth Pipeline Engine™

1.1 Scope of the Technology and Innovation Research

1.2 Research Methodology

1.3 Research Process and Methodology

1.4 Summary of the Key Findings

1.5 Impact of Enabling Technologies in CBRNE Market

2.1 CBRNE Technology Landscape – An Overview

2.2 Push for Enhanced Safety Nanotechnology and System Miniaturization are Trending CBRNE Applications

2.3 Enabling Smart Cities and Role of Stretchable Electronics in CBRNE

2.4 Enabling Technologies Empowering CBRNE Applications

2.5 Impact of Drone Technology in CBRNE Applications

2.6 Impact of Robotics, Sensor, and Wearable Technologies in CBRNE Applications

2.7 Global Market opportunities of CBRNE Detection Systems

3.1 Role and Significance of First Responders for CBRNE Detection

3.2 Role of Military Personnel and Civilian in CBRNE Applications

3.3 First Responders Sharing a Common Space in CBRNE Applications

3.4 IFAFRI’s First Responders Capability Gaps

3.5 Potential Solutions for IFAFRI’s First Responders Capability Gaps

3.6 CBRN training networks and EU CBRN Centres of Excellence

3.7 Impact Analysis of Drones in CBRNE Applications

3.8 Impact Analysis of Sensors in CBRNE Applications

3.9 Key Applications of CBRNE Applications

3.10 Impact Analysis of Nanosensors in CBRNE Applications

3.11 Impact Analysis of Terahertz Imaging in CBRNE Applications

3.12 Impact Analysis of Biosensors in CBRNE Applications

3.14 Impact Analysis of Gamma camera in CBRNE Applications

3.15 Significance and Key Developments in SiPR Gamma Detectors

3.16 Impact Analysis of Robotics in CBRNE Applications

3.17 Case Studies of Robotic Solutions for Emergency Operations

3.18 Impact Analysis of Wearable in CBRNE Applications

3.19 Impact Analysis of Software/Simulator in CBRNE Applications

3.20 Key Standards for CBRNE Detection Applications

3.21 Key Standards for First Responder in CBRNE Applications

3.22 Key EU Standards for CBRNE Applications

3.22 Key EU Standards for CBRNE Applications (continued)

3.23 Key Government Programs and Initiatives Driving CBRNE Applications

3.24 Key Developments and Initiatives from Europe Region

3.25 Key EU Projects in CBRNE Application

3.25 Key EU Projects in CBRNE Application (Continued)

4.1 Key Developments in Drones for CBRNE Applications

4.2 Key Developments in Detectors for CBRNE Applications

4.3 Key Developments in Software/Simulators for CBRNE Detection

4.4 Key Developments in Robotics Assisting Emergency Responders

4.5 Key Developments in Sensors Aiding Civilians and First Responders

4.6 Key Developments in Gamma Detectors for Monitoring Radioactive Materials

4.7 Key Developments in Wearable for CBRNE Threat Detections

4.8 Key Developments in EU, Middle East, and APAC Regions

4.9 Key Innovations in Radiation Detection Aiding Civilians

5.1 Patent Research Focus Areas are More Toward Development of Sensor Devices

5.2 Funding Trends and Analysis Empowering CBRNE Market

5.3 Key Funding Focus Areas and Initiatives

5.4 Key Funding Focus Areas and Initiatives in EU REGION

6.1 Growth Opportunities for Enhanced CBRNE Threat Sensing

6.2 Impact of COVID-19 in CBRNE Applications

6.3 Strategic Insights – Critical Success Factors

7.1 Key Contacts

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Opportunities for chemical, biological, radiological, nuclear, and explosive (CBRNE) threat agent detection systems are being largely driven by increasing threats of terrorist attacks. Chemical threats involve use of harmful and toxic industrial chemicals or materials and release of poisonous gases. Biological threats include premeditated attacks by deliberately releasing hazardous bioagents, such as, biological toxins. Nuclear and radiological attacks pose an enormous menace and will result in catastrophic losses. There are also needs and opportunities for improved ability to determine the chemical attribution signature (CAS) of chemical threat agents, trace the origins of toxic chemicals and related materials to their source, and to enhance sample collection and preservation of CAS at the scene. CBRNE agents cause intense damage that could lead to mass civilian casualties, economic degradation, demolition of critical infrastructure, and contamination of large areas. Key Questions Answered in the Technology and Innovation Study What is the significance of CBRNE technology and its impact? What are the current trends and developments that are driving the opportunities for CBRNE technologies in the civilian market? What are the technology capabilities of various emerging technologies boosting the CBRNE threat detection? Key innovations and their application impact IP and Funding scenario Growth opportunities and critical success factors What sort of strategies do OEMs need to embrace to gain entry and sustain in the competitive marketplace?
More Information
Deliverable Type Technology Research
No Index No
Podcast No
Author Varun B
Industries Electronics and Sensors
WIP Number D9C8-01-00-00-00
Is Prebook No