Raman Detection of improvised explosive device (IED) material fabricated using drop-on-demand Inkjet Technology on several real world surfaces

2015 ◽  
Author(s):  
Mikella E. Farrell ◽  
Ellen L. Holthoff ◽  
Paul M. Pellegrino
Keyword(s):  
Real World ◽  
Improvised Explosive Device ◽  
On Demand ◽  
Drop On Demand ◽  
Explosive Device ◽  
Improvised Explosive

scholarly journals A Simulation Algorithm Capable Of Modelling Spatial Impact Points From The Neutralization Of An Improvised Explosive Device

2021 ◽  
Author(s):  
Christopher Chan ◽  
Alexander Ferworn
Keyword(s):  
Real World ◽  
Relevant Information ◽  
Particle Dispersion ◽  
Improvised Explosive Device ◽  
The Public ◽  
Additional Information ◽  
Public Safety Personnel ◽  
Simulation Based ◽  
Explosive Device ◽  
Improvised Explosive

An improvised explosive device (IED) is a bomb constructed from unknown materials, often concealed, such as inside an innocuous container, and deployed in unconventional ways resulting in a potentially deadly weapon. Public safety personnel such as Explosive Disposal Units (EDUs), are trained in the safe handling of explosives and the threats posed by IEDs. One method of neutralizing a suspect IED is to use water fired from a high-powered dispersion weapon commonly known as a disrupter cannon. Our research proposes an algorithm for developing an IED neutralization simulation that can emulate real-world physical effects of the successful neutralization of an IED without danger to the public or first responders. This algorithm includes 6 methodologies with the goal of providing EDU with additional information on the potential physical dispersion of the components of an IED and any major points of impact (splatter) and possible actionable intelligence on the pose and direction of a disrupter cannon for a successful neutralization of an IED. We have developed a prototype simulation based on this algorithm and evaluated the simulation with an appropriate real-world disrupter and compared the real-world splatter to our simulation’s splatter. We argue systems developed with our algorithm may provide relevant information directly from the simulation and can be accurately used to analyze particle dispersion for the purposes of augmenting EDU IED neutralization processes.

scholarly journals A Simulation Algorithm Capable Of Modelling Spatial Impact Points From The Neutralization Of An Improvised Explosive Device

2021 ◽  
Author(s):  
Christopher Chan ◽  
Alexander Ferworn
Keyword(s):  
Real World ◽  
Relevant Information ◽  
Particle Dispersion ◽  
Improvised Explosive Device ◽  
The Public ◽  
Additional Information ◽  
Public Safety Personnel ◽  
Simulation Based ◽  
Explosive Device ◽  
Improvised Explosive

An improvised explosive device (IED) is a bomb constructed from unknown materials, often concealed, such as inside an innocuous container, and deployed in unconventional ways resulting in a potentially deadly weapon. Public safety personnel such as Explosive Disposal Units (EDUs), are trained in the safe handling of explosives and the threats posed by IEDs. One method of neutralizing a suspect IED is to use water fired from a high-powered dispersion weapon commonly known as a disrupter cannon. Our research proposes an algorithm for developing an IED neutralization simulation that can emulate real-world physical effects of the successful neutralization of an IED without danger to the public or first responders. This algorithm includes 6 methodologies with the goal of providing EDU with additional information on the potential physical dispersion of the components of an IED and any major points of impact (splatter) and possible actionable intelligence on the pose and direction of a disrupter cannon for a successful neutralization of an IED. We have developed a prototype simulation based on this algorithm and evaluated the simulation with an appropriate real-world disrupter and compared the real-world splatter to our simulation’s splatter. We argue systems developed with our algorithm may provide relevant information directly from the simulation and can be accurately used to analyze particle dispersion for the purposes of augmenting EDU IED neutralization processes.

Developing the Second Generation of Improvised Explosive Device Detector Dog

2013 ◽  
Author(s):  
David C. Dorman ◽  
Barbara Sherman ◽  
Margaret Gruen ◽  
Richard Fish ◽  
Melanie L. Foster ◽  
...  
Keyword(s):  
Second Generation ◽  
Improvised Explosive Device ◽  
Explosive Device ◽  
Improvised Explosive

scholarly journals (A20) Injury Pattern and Disaster Plan for Landmines and Improvised Explosive Device Blast

2011 ◽  
Vol 26 (S1) ◽  
pp. s6-s6
Author(s):  
S.K. Choudhary
Keyword(s):  
Common Type ◽  
Injury Pattern ◽  
Limb Amputation ◽  
Indian Government ◽  
Disaster Plan ◽  
Emergency Department Care ◽  
Improvised Explosive Device ◽  
Pattern Of Injury ◽  
Explosive Device ◽  
Improvised Explosive

Landmines and improvised explosive device (IED) explosions induce bodily injuries through the primary, secondary, tertiary, and quaternary mechanisms of blast among civilians, mostly children which results in a complicated, multidimensional injury pattern. If > 80 percent of countries can ensure the security of their borders without using anti-personnel mines, surely India can too. A change in mindset and a change in defense doctrine are needed, as well as an UN-backed world body campaigning against the use of landmines to urge the Indian government to sign a global treaty to ban the weapons. An estimated four to five million anti-personnel mines exist in India, which is the sixth-largest stockpile in the world. Non-state armed groups in the central, southern, northern, and northeastern regions frequently have used anti-personnel mines and improvised explosive devices to target convoys of soldiers and civilians. Using historical, current research and related literature reviews, this study provides description about the types of explosion, the device, pattern of injury, prehospital and emergency department care, and challenges for the disaster plan. Hand amputation is the most common type of upper limb amputation (more common among the 7–18-year age group) and below-knee amputation is the most common type of lower limb amputation. Using these data, a focused disaster response for future attacks has been created. It includes the planning, monitoring, and coordination of all aspects by hospitals and the regional disaster system's plan—“upside-down” triage—the most severely injured arrive after the less injured, which bypass emergency medical services (EMS) and go directly to the nearest hospitals. Details about the nature of the explosion, potential toxic exposures and environmental hazards, and casualty location from police, fire, EMS, health department, and reliable news sources must be recorded.

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