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A radiation threat detection system was successfully tested recently by the US Defense Advanced Research Projects Agency (DARPA).
DARPA’s SIGMA program—whose goal is to prevent attacks involving radiological “dirty bombs” and other nuclear threats—concluded its biggest and longest test deployment of vehicle-mounted radiation detectors in Washington, D.C.
For approximately seven months, the fleet of D.C. Fire and Emergency Medical Services ambulances was outfitted with DARPA-developed nuclear and radiological detectors, providing the first city-scale, dynamic, real-time map of background radiation levels throughout the Capital as well as identifying any unusual spikes that could indicate a threat.
According to DARPA’s website, because medical and fire emergencies occur in every corner of the District every day, emergency vehicles equipped with radiation detectors provide an excellent means of achieving a large-scale scan for radiological risks.
In the just-completed test deployment, up to 73 large detectors were installed on emergency vehicles covering more than 150,000 miles, and identified in real-time thousands of radiation sources. Items as innocuous as natural granite used in construction, as well as lingering radiation after certain medical treatments, can trigger positive responses. SIGMA detectors can readily distinguish between these kinds of benign sources and threatening ones.
The detectors provided detailed background radiation maps of the District against which future sources may be more easily detected. The deployment also offered an opportunity to test and refine the wireless data fusion aspects of the system, which constantly fed information about vehicle location and radiation readings to a central command post.
“Historically, increases to detection capabilities came from improved individual detectors,” said John Donnelly, D.C. Fire and EMS deputy fire chief. “The most significant capability gain since 9/11 was spectroscopic detectors for first responders. D.C. Fire and EMS was interested in the SIGMA program because DARPA approached the problem differently. By not only putting more spectrometers into the field but also networking them so that the data is continuously collected and analyzed with other, and prior, information as a whole, SIGMA laid the groundwork for a monitoring system that can incorporate intelligence holistically into risk assessment. Incorporating more data will further improve the ability of the SIGMA system to differentiate between ‘safe’ and illicit radiation sources, and increase our capabilities to monitor wide-areas for radiological and nuclear threats.”
DARPA’s SIGMA system has developed two types of radiation detectors—a larger size like those recently deployed in the emergency vehicle tests and inexpensive, smartphone-sized mobile devices that can be worn on a belt by police officers or others. The devices run on advanced software that can detect the tiniest traces of radioactive materials. Those devices, networked with detectors along major roadways, bridges, and other fixed infrastructure, promise significantly enhanced awareness of radiation sources and greater advance warning of possible threats. The SIGMA detectors themselves do not emit radiation but detect gamma and neutron radiation emanating from sources.
DARPA plans to further test SIGMA’s wide-area monitoring capability and transition the operational system to local, state, and federal entities in 2017 and 2018.