Wearable sensors to detect firearm use

Researchers at the University of Pennsylvania have demonstrated how low-cost, wearable inertial sensors could detect firearm usage.

Currently, detecting and deterring this type of crime can be challenging in the absence of reliable evidence that a particular community-supervised offender illegally used a firearm. Charles Loeffler, an assistant professor of criminology at Penn, used sensors similar to those found in fitness trackers to recognise wrist movements and other signals corresponding to firearm use.

Research participants included officers from the Penn Police Department, construction workers and individuals engaged in routine daily activities. The resulting sensor data was used to train a detection algorithm that achieved more than 99% accuracy in classifying individual gunshots, demonstrating that firearm use can be reliably distinguished from a range of potentially confusable human activities.

“It turns out that gunshots are highly distinctive events when viewed from the perspective of the human wrist,” Loeffler said. “The wrist experiences a near instantaneous blast wave that is closely followed by the recoil impulse. The entire event is over in a fraction of a second.

“This wearable sensor technology offers criminal-justice practitioners a potential alternative to existing monitoring systems that were not specifically designed to detect individual firearm usage,” Loeffler said. “If integrated sensibly into existing community-supervision systems, it could enhance the ability of correctional authorities to deter and/or detect firearm use while allowing community-supervised populations to experience less onerous conditions of release.”