Intelligence, Surveillance and Reconnaissance Exploitation

Precise timing is essential across DoD systems, including communications, navigation, electronic warfare, intelligence systems reconnaissance, and system-of-systems platform coordination, as well as in national infrastructure applications in commerce and banking, telecommunications, and power distribution. Improved clock performance throughout the timing network, particularly at point-of-use, would enable advanced collaborative capabilities and provide greater resilience to disruptions of timing synchronization networks, notably by reducing reliance on satellite-based global navigation satellite system (GNSS) timing signals.

The DoD has become increasingly reliant on intelligence, surveillance and reconnaissance (ISR) applications. With the advent of expanded ISR capabilities, there is a pressing need to dramatically expand the real-time processing of wide-area, high-resolution video imagery, especially for target recognition and tracking a large number of objects. Not only is the volume of sensor data increasing exponentially, there is also a dramatic increase in the complexity of analysis, reflected in the number of operations per pixel per second. These expanding processing requirements for ISR missions, as well as other DoD sensor applications, are quickly outpacing the capabilities of existing and projected computing platforms.

Dr. David Shaver is a Program Manager in the Strategic Technology Office. Prior to that he served as Chief Scientist for the Air Dominance Initiative, deputy director of the Microsystems Technology Office (MTO), and as a program manager in MTO.

Mr. Trung Tran joined DARPA as a program manager in the Microsystems Technology Office in October 2015. Tran earned a Bachelor of Science degree in electrical engineering from the US Air Force Academy and a Master of Business Administration degree from The Wharton School of the University of Pennsylvania. While in the Air Force, he was stationed at Fort Meade and Hanscom Air Force Base working at the Air Intelligence Agency. In those roles, he developed cryptographic chips and command and control networks, which focused on reducing the amount of time between the acquisition of sensor data and the use of that data by shooters or, more generally, weapons systems. He received four medals in recognition of his work in these areas.