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IDG News Service - It's 10 a.m. on a bright, sunny morning in Newark, California, but in the windowless control room at ShotSpotter the lights are dimmed. Two operators are watching banks of displays connected to a network of acoustic sensors located in cities across the U.S.
An alarm sounds on one computer and a red alert box pops up: "Backfire. View incident?" it asks the operator. At her console, the operator can listen to recordings collected from several sensors located within a few hundred meters of the noise, which the computer has classified as a car backfiring.
The operators here have listened to thousands of such recordings and, to her trained ears, the sound -- more of a pop than the roaring bang we're used to hearing in movies -- is in fact a gunshot. She clicks a button to reclassify the sound and within seconds a report with a location of the shot is despatched to the Oakland Police Department.
Oakland is one of 74 cities across the U.S. that subscribe to the ShotSpotter service, provided by Newark-based SST. Other customers include Milwaukee, Minneapolis, Boston, Washington and San Francisco.
The alerts they get pinpoint the location of the gunfire to within 10 meters, indicate the number of shots fired, take a guess at the type of firearm used and, if the shot was fired from a moving vehicle, provide the speed and direction of travel.
It's all useful information for responding officers, but that last piece of data can be especially important in attempts to catch suspects, said Mikail Ali, a commander with the San Francisco Police Department.
"We have accuracy in terms of the closest address," he said. "The officers have a map that shows a dot in terms of proximity to that incident. If the shooter is moving in a car, it will give the direction of the vehicle and so forth, which can be significant."
ShotSpotter is based on networks of acoustic sensors that are installed across the subscribing towns. The sensors and their associated electronics are housed in small, unassuming metal boxes that don't look out of place mounted on utility poles or on the side of buildings.
"We distribute a large number of these sensors, approximately 15 per square mile, through an urban area," said James Beldock, SST's senior vice president of products. The microphones are always listening and the system is designed to trigger on impulsive sounds -- very short bursts of wideband audio that include gunshots but also things like cars backfiring, fireworks and hammer blows.
"When a gun is fired, the sound from that gun radiates out ... and reaches each one of those sensors at a slightly different time," he said.
The time differences are used to triangulate the location where the sound occurred. It takes about 10 seconds for the triangulation to take place, after a computer algorithm has helped to dismiss things like echoes from nearby buildings.
"Sound echoes are the single biggest technical challenge for a technology that attempts to locate individual noises over many, many square miles," said Beldock.