Overview
New technologies can range from fully autonomous systems with no human input to minimally autonomous systems with primarily human inputs. It depends on what mix works best for each situation.
We led the development of the human-machine interface and the driver guidance system on the Semi-Autonomous Motorcar project.
Tools for Service Members
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 warfighters include real-time and virtual immersive training environments, human-in-the-loop simulation, battlespace visualization, threat system modeling, and UAV command and control technologies.
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.
The ICS system provides real-time monitoring and analysis of pilot health, the cabin environment, and life support systems to improve pilot safety and performance.