Overview
We develop and integrate best-of-breed technologies to improve training, help service members make better decisions, push them to their maximum potential, and augment them to sustain performance in needed situations. Our tools collect the necessary data to provide insight into mission performance and enhance effectiveness of mission debriefs. Other tools we develop for the military include real-time and virtual immersive training environments, human-in-the-loop simulation, battlespace visualization, threat system modeling, and UAV command and control technologies.
Integrated Cockpit Sensing
Our Integrated Cockpit Sensing system provides real-time monitoring and analysis of pilot health, the cabin environment, and life support systems to improve pilot safety and performance. The system is designed to help detect, mitigate and provide insight into in-flight Physiological Episodes (PE) that adversely impact the physical and cognitive abilities of pilots, risking their ability to return home safely.
We led the development of the human-machine interface and the driver guidance system on the Semi-Autonomous Motorcar project.
BATDOK®
The Air Force Research Laboratory (AFRL) selected our team to continue development and support deployment of the Battlefield Assisted Trauma Distributed Operations Kit (BATDOK®) through the Force Optimization through Rapid-prototyping, Gear Enhancements & Innovative Technology (FORGE-IT) program. BATDOK® is an AFRL application we've developed in partnership with to create a complete and reliable record of injuries and treatments from the point of injury through recovery. Traditionally, medical care administered on the battlefield is only recorded on paper. BATDOK® records medical care electronically, ensuring the details of a patient’s injury and field treatment are seamlessly transferred to the nurses and doctors providing ongoing care.
Optimizing Guardian Fitness
We deliver secure, scalable, and interoperable architectures that are sensor and platform-agnostic, ensuring flexibility as new wearable technologies emerge. Leveraging our expertise in government cloud environments and human performance integration, we provide secure web and mobile applications that transform portable wearable fitness device (PWFD) data into actionable insights on cardiorespiratory fitness, muscular strength, and overall performance. Our approach safeguards sensitive data, enables adaptive metrics, and aligns with the U.S. Space Force’s Holistic Health Approach (HHA) to enhance Guardian resiliency and readiness
Autonomy & Collaboration
How can machines help us and in what areas do we need help? An example is the highly successful Semi-Autonomous Motorcar (SAM) project. We designed the interface that allowed a quadriplegic race car driver to operate a specially modified car at close to racetrack speeds. This is just one way our technology can help restore an important degree of performance.
We led the development of the human-machine interface and the driver guidance system on the Semi-Autonomous Motorcar project.
Future Capabilities
A long partnership with the Air Force Research Laboratory is invaluable in helping us identify novel technology and apply it to real systems. These systems are designed to operate semi-autonomously with human input at critical decision-making points, enhancing human performance and capabilities through two-way communication and shared decision-making. We partner with our customers to discover the science, develop the technology, and deliver the capabilities that optimize safety and performance.