Protect the personnel who protect us
Military personnel are up against risks of all kinds, whether a dismounted soldier, pilot, or royal marine. On top of risking their lives, they can fall victim to heat injury from working in hot climates, fatigue from long hours and even hearing loss from overexposure to excessive noise during training exercises and deployment. Ultimately, heat stress can lead to personnel being medically evacuated from the field and even downgraded at great expense. This can be prevented.
Reliably monitor physiological responses
The only way to reliably monitor the impact of physiological strain on military personnel is by deploying technology that actively monitors their physiological risk factors. Despite solutions already existing, the likes of wrist-worn or skin-based devices are unable to provide an accurate analysis of core body temperature (CBT). We use the latest innovations in sensor technology and machine learning algorithms to provide real-time predictions of the onset of key physiological markers. Coupled with an advanced geolocation capability, we offer an unrivalled and comprehensive solution to protect personnel.
Safeguard your personnel
In a contract with the Defense Innovation Unit, through the Army Contracting Command of the US Army, Bodytrak was put to the test with US Navy’s fixed wing pilots. The trial was able to demonstrate how wearable physiological monitoring technology could be used to reduce the number of physiological incidents during or after a flight that pose a significant health and safety threat to personnel and contribute to aircrew deaths and aircraft losses. Bodytrak was tested against a control device while volunteers exercised with varying levels of exertion in a controlled environmental chamber wearing a pilot flight suit and either a pair of overhead headphones or a full-size pilot helmet. Heart rate data from Bodytrak showed a mean absolute error of 2.87 beats per minute compared to the control ECG device, and CBT data from Bodytrak showed a mean absolute error of 0.18°C compared to a gastro-intestinal pill, demonstrating that the Bodytrak solution is a very effective way of measuring heart rate and CBT.
Reduce costs and productivity losses
In 9 years (2003 – 2012) more than £27.5 million has been spent on aeromedical evacuations in Defense as a result of heat related injuries. Bodytrak provides a return on investment through the prevention of costly injuries, in turn preventing medical costs, aeromedical evacuations, loss of productivity, and costly compensation claims. Bodytrak also combines many essential capabilities into a single system, providing a more integrated cost-effective solution.
Built for the military
Contracted by the Defence Science Technology Laboratory (supplying specialist science & technology services to the UK’s Ministry of Defence and wider government) and the Defense Innovation Unit (through the Army Contracting Command of the US Army), Bodytrak is a fit-for-purpose ruggedized solution designed for harsh conditions and environments. It combines physiological monitoring with hearing protection and noise metering to prevent heat injury and hearing damage.
Integrate with other systems and platforms
Bodytrak can be configured to operate in an offline mode, only notifying the wearer, or with cellular, Wi-Fi and/or Bluetooth radios enabled to provide telemetry to the cloud or an air-gapped/on-premise server infrastructure. Both the hardware and platform can be easily integrated with other systems via software APIs, as part of a larger system.
Maximize your personnel units
Bodytrak helps you provide a duty of care to keep your military personnel safe, especially in training where heat injury is entirely preventable. Performance based metrics and automated thresholds enable the output of teams to be maximized and heat acclimated ready for deployment.
Monitor individuals, not environments
Tracking health and safety no longer needs to be a one-size-fits-all approach, limited by universal methods such as wet-bulb globe temperature (WBGT). Bodytrak enables automated thresholds to be set for each user on a personalised basis, using automated machine learning techniques. This helps to ensure intervention is only provided when necessary, and not too late.