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Spotlight Labs presents its SPYDR hypoxia sensor pilot helmet insert


Spotlight Labs, a veteran-owned technology company, announced the availability of its SPYDR hypoxia sensor, a helmet insert that gathers human biometric and aircraft condition data, detects and warns pilots of their imminent incapacitation, and records high fidelity flight data for post-flight analysis and improved flight outcomes. The company says that the SPYDR was tested by the United States Air Force, and can be utilized to prevent loss of life and improve pilot performance and training.


Spotlight Labs presents its SPYDR hypoxia sensor pilot helmet insert AT-6C Texan II, an armed version of the T-6, at Salon du Bourget in France (Picture source : Air Recognition)


The SPYDR device was developed by a team of former fighter pilots and engineers at Spotlight Labs in response to increasing concern among pilots after several hypoxia-related crashes and fatalities. Initially intended for a commercial application, the device was developed, tested, and manufactured with private, non-government research and development funds. After the grounding of the T-6 training fleet by the United States Air Force, Spotlight Labs executed destructive testing, electromagnetic interference testing, and acoustic testing on the SPYDR. Later, Spotlight Labs executed physical demonstrations in an altitude chamber, a centrifuge, and a ground-based restricted oxygen breathing device. After meeting or exceeding military specification in all cases, according to Spotlight Labs, and gaining U.S. Air Force flight approval, the SPYDR was incorporated into more than 100 training flights in T-6 aircraft to demonstrate its efficacy.

"Everything in tactical aviation is instrumented - except the pilot," said Dr. Brian Bradke, a biomedical engineer, F-16 pilot, and lead engineer for biometrics at Spotlight Labs. "The SPYDR instruments the operator - giving individual pilots tools for safety and performance in flight, while collecting valuable data that will fuel improved performance and increased risk mitigation for the pilot community as a whole. This device is an immediately available, fairly-priced solution to an extremely expensive problem that has long plagued our military."

The SPYDR device replaces the existing earcups in an aviation helmet, which makes its impact and presence transparent to the pilot. There is also no impact to the physical aircraft to deploy the device, nor does it contain any transmitters or receivers. The device includes three sensors and a bone conducting transducer that collects data at relevant physiological points on the neck and head. The SPYDR quantifies pilot degradation as it happens and provides a definitive warning to pilots of their condition.

The device continuously records data multiple times per second. Individual data is protected and distributed confidentially to pilots, who can assess their performance and degradation during specific phases of flight and in correlation to in-flight events. Because the SPYDR also measures aircraft parameters, the pilot and the maintenance crew can draw correlations between times of degradation and improvement, as well as between physiological events to specific aircraft parameters. Aggregate data is provided to the military command structure for use in reducing risk and improving performance for future tactical flight. Device data is analyzed using machine learning and artificial intelligence techniques that demonstrate increases or decreases in individual performance, workload, and stress factors. This data can be incorporated to quantify spikes in risk for specific aircraft, units, mission types, geography or other flight elements.