Ball
Ball

Human Performance

Human & Machine 

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 race track speeds. This is just one way our technology can help restore an important degree of performance.

What does the tech do?

What do people do?

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 race track speeds. This is just one way our technology can help restore an important degree of performance.

We research and develop new technologies that improve the performance of first responders and warfighters. These 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.
Cyber human with US map
Simulating complex environments
UAV in flight
Unmanned Aerial Vehicle

Warfighter tools

Training to UAVs 

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.  

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.

Contact Ball

Learn more about how we can help you do more with less and add efficiency.

E: info@ball.com