Defense Advanced Research Projects AgencyTagged Content List

Human-Machine Interface

Relating to the interaction between humans and machines

Showing 22 results for Interface + Opportunities RSS
August 15-22, 2019,
Eleven Systems teams from around the world will attempt to remotely map, identify, and report the greatest number of artifacts along the passages of a Pittsburgh research mine in the Subterranean Challenge Tunnel Circuit August 15-22, 2019.
February 18-27, 2020,
Satsop Business Park
DARPA’s Subterranean (SubT) Challenge seeks to better equip warfighters and first responders to explore uncharted underground environments that are too dangerous, dark, or deep to risk human lives. In three circuit events and one final event, participating teams will deploy autonomous systems to attempt to map, navigate, and search various underground environments. Teams earn points by correctly identifying artifacts placed within those environments. The Urban Circuit, the second scored event of the SubT Challenge, will take place in February 2020.
August 12, 2019, 8:30 AM ET,
DARPA Conference Center
The Information Innovation Office is holding a Proposers Day meeting to provide information to potential proposers on the objectives of the new Symbiotic Design for Cyber Physical Systems program and to facilitate teaming. The goal of the program is to develop AI-based approaches to enable correct-by-construction design of military-relevant, cyber-physical systems (CPS), in order to reduce the time from their inception to deployment from years to months, and enhance innovation in design. These approaches would complement and augment existing model-based design technologies, and enable humans and computers to collaborate on correct-by-construction design of CPS.
Serial Interactions in Imperfect Information Games Applied to Complex Military Decision Making (SI3-CMD) builds on recent developments in artificial intelligence and game theory to enable more effective decisions in adversarial domains. SI3-CMD will explore several military decision making applications at strategic, tactical, and operational levels and develop AI/game theory techniques appropriate for their problem characteristics.
Cyber physical systems (CPS) are instrumental to current and future Department of Defense (DoD) mission needs – unmanned vehicles, weapon systems, and mission platforms are all examples of military-relevant CPS. These systems and platforms integrate cyber and physical subsystems, and the enormous complexity of the resulting CPS has made their engineering design a daunting challenge. An immediate consequence of this complexity is development cycles with prolonged timelines that challenge DoD’s ability to counter emerging threats.