The United States government has deployed a new artificial intelligence-based visual recognition and identification system to protect against airborne threats in Washington.
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The new artificial intelligence-based visual recognition and identification system is spread throughout the National Capital Region (NCR) and reportedly offers an exponential increase in capability compared to the previous air defence system network of cameras and lasers (installed in 2002 following 9/11).
Two of the new cameras have been installed and are operational – there are plans to install seven new cameras a year going forward.
Known as the Enhanced Regional Situational Awareness system, the ERSA system is closely monitored by the Eastern Air Defense Sector in Rome, New York.
“If we need to validate some radar data that we can’t for sure say what it is, we can utilise the camera system as an asset to look in that set location to assist in the validation process,” said Air Force Master Sergeant Kendrick Wilburn, a New York Air National Guardsman and the non-commissioned officer-in-charge of capabilities and requirements at the Joint Air Defense Operations Center (JADOC) at Joint Base Anacostia-Bolling in Washington DC.
When there are perceived threats within the NCR, the JADOC ERSA operators act as an extension of the sector to rapidly assess the situation and determine if they need to warn unauthorised air traffic to get out of the NCR Special Flight Rules Area.
The new ERSA cameras (made by tech company Teleidoscope) each have a naked eye-type of view, known as an electro-optical visual, as well as an infrared view of the landscape.
“You have an extended range – you can see further. We went from standard definition to high definition. The fidelity is incredible,” MSgt Wilburn said.
“On the infrared side, you have multiple enhanced features like IR colorisation. For example, you could utilise a RGB (red, green, blue) filter to where … the object that we’re tracking sticks out via heat signature.”
A laser range finder allows operators to shoot an eye-safe laser at an object to measure its altitude and distance. There are also some machine-learning elements to the system, such as an enhanced auto-tracking feature that has various locking modes.
“The system itself tries to identify what it believes the target to be, and then the operator can assess whether to override it or fine-tune it,” MSgt Wilburn said.
“The more the feature is used, the better it’ll get.”
“The camera itself is amazing. We were able to acquire small targets such as a bird flying all kinds of patterns. It locked onto it and held that lock.
“With the legacies (cameras), you’d have a harder time getting the system to do that.”
The cameras also integrate a visual warning system, which is a laser that can illuminate the cockpit of an aircraft.
The new lasers are used on aircraft that aren’t following an assigned flight plan and aren’t in radio contact or compliant with the Federal Aviation Administration’s special flight rules.
Teleidoscope’s cameras were tested out by air defence operators during the acquisition process. Two other companies were selected to create prototypes out of commercially developed and available technology. All three systems were installed and tested in 2022.
“Non-compliant aircraft are aware that, when they see the red-green laser, they need to turn to a heading away from the centre of the flight restricted zone, or SFRA, as soon as possible and immediately contact the FAA to try to figure out why they’re being sparkled at,” MSgt Wilburn said, referring to lingo for the visual warning system when it’s in use.
“There are times that I’ve used it … and [violators] are responsive to it.”
MSgt Wilburn said Teleidoscope’s software enhancements were what made its cameras stand out.
“That camera (system) felt like it was an upgrade, versus the other ones [which] were kind of like a refresh,” he said.
The Defense Innovation Unit helped Teleidoscope secure funding from the Air Force and the Accelerate the Procurement and Fielding of Innovative Technologies program to quickly field the new camera system.