Technology

Technology

Premise of functionality

Our technology functions on the main principle that in order to minimise the implications of brain trauma as a result of participation in sport we need to prevent athletes from being exposed to cumulative brain traumas. We therefore identify these traumas at the point of injury and provide advisory analytics to remove the athlete from participation. Thus, eliminating the possibility of further traumas occurring.

 

The principles that are considered to enable the development of our brain trauma analysis software, a complex artificial intelligence engine, is that localisation and extent of brain trauma result in decreased cognitive acuity – changes to the functionality of the brain. Through monitoring changes in innate neurological functionality through cognitive acuity testing we can identify the susceptibility to concussions predicated on localisation and severity of trauma the individual was subject to. Through doing this we can render the brain trauma analysis software on first a general population level, then an individual level. This will then enable us to provide increasingly accurate data to advice on traumas sustained during athlete participation.

 

Premise of functionality

Our technology functions on the main principle that in order to minimise the implications of brain trauma as a result of participation in sport we need to prevent athletes from being exposed to cumulative brain traumas. We therefore identify these traumas at the point of injury and provide advisory analytics to remove the athlete from participation. Thus, eliminating the possibility of further traumas occurring.

 

The principles that are considered to enable the development of our brain trauma analysis software, a complex artificial intelligence engine, is that localisation and extent of brain trauma result in decreased cognitive acuity – changes to the functionality of the brain. Through monitoring changes in innate neurological functionality through cognitive acuity testing we can identify the susceptibility to concussions predicated on localisation and severity of trauma the individual was subject to. Through doing this we can render the brain trauma analysis software on first a general population level, then an individual level. This will then enable us to provide increasingly accurate data to advice on traumas sustained during athlete participation.

 

Hardware

Our hardware is a sleek motion detection unit that monitors the movement of the skull. This sends data to the base station which forwards the data to a mobile device.

Cognitive Acuity Testing

We measure changes in how brain trauma effects the functionality of the brain. This is done by monitoring changes in monitoring how the pupil reacts to stimuli, in addition to the individual’s reaction time.

Hardware

Our hardware is a sleek motion detection unit that monitors the movement of the skull. This sends data to the base station which forwards the data to a mobile device.

Cognitive Acuity Testing

We measure changes in how brain trauma effects the functionality of the brain. This is done by monitoring changes in monitoring how the pupil reacts to stimuli, in addition to the individual’s reaction time.

Mobile Application

On the mobile device, analytics regarding impacts during participation can be observed, including push notifications to the coach in real time advising if the athlete needs to be removed from participation or not.

Further features are available on the mobile application for both the coach, and the athlete.

• Cognitive acuity testing is available for the athlete to track the implications of the traumas sustained

• Pairing of athletes to device available for the coach

• Observation of current athlete status for the coach

• Long-term storage of trauma analytics available for the athlete

Software

Our brain trauma analysis software uses artificial intelligence to process data collected by our sensors enable the identification of brain trauma at the point of injury. Our AI engine monitors how the force applied to the brain correlates to changes in cognitive acuity. This enables us to identify concussive thresholds dependent on the location, and type of impact to the brain.

Mobile Application

• On the mobile device, analytics regarding impacts during participation can be observed, including push notifications to the coach in real time advising if the athlete needs to be removed from participation or not.

Further features are available on the mobile application for both the coach, and the athlete.

• Cognitive acuity testing is available for the athlete to track the implications of the traumas sustained

• Pairing of athletes to device available for the coach

• Observation of current athlete status for the coach

• Long-term storage of trauma analytics available for the athlete

Software

Our brain trauma analysis software uses artificial intelligence to process data collected by our sensors enable the identification of brain trauma at the point of injury. Our AI engine monitors how the force applied to the brain correlates to changes in cognitive acuity. This enables us to identify concussive thresholds dependent on the location, and type of impact to the brain.

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