Defense Advanced Research Projects AgencyTagged Content List

Threat Countermeasures

Actions that mitigate adversaries' capabilities

Showing 91 results for Countermeasures RSS
DARPA’s Cyber Grand Challenge is a first-of-its-kind tournament designed to speed the development of automated security systems able to defend against cyberattacks as fast as they are launched.
The Friend or Foe program aims to develop biosurveillance technology that can detect bacterial pathogens as, or even before, they threaten the military and homeland. The goal of the program is to quickly determine whether an unknown bacterium is harmless or virulent by directly identifying pathogenic behavior, avoiding conventional strategies that rely on known biomarkers.
The Gamma Ray Inspection Technology (GRIT) program seeks transformational approaches to achieving high-intensity, tunable, and narrow-bandwidth gamma ray production, but in a compact form factor suitable for transporting the source to where the capability is needed.
Microbial infections are a problem of particular concern to the Department of Defense (DoD). The DoD has long recognized the warfighter’s outsized risk of exposure to infectious disease, including the rise of antimicrobial resistant (AMR) and multidrug resistant (MDR) pathogens that have challenged military wound care in Iraq and Afghanistan. Furthermore, the responsibility of the DoD to protect the homeland encompasses biological threat agents, including bacterial threats, for which effective countermeasures are critical.
The Insect Allies program is pursuing scalable, readily deployable, and generalizable countermeasures against potential natural and engineered threats to the food supply with the goals of preserving the U.S. crop system. National security can be quickly jeopardized by naturally occurring threats to the crop system, including pathogens, drought, flooding, and frost, but especially by threats introduced by state or non-state actors. Insect Allies seeks to mitigate the impact of these incursions by applying targeted therapies to mature plants with effects that are expressed at relevant timescales—namely, within a single growing season.