The PPB program aims to address PPE limitations.
May 7th, 2021
DARPA
Chemical and biological (CB) threats have become increasingly ubiquitous and diverse, presenting significant risks to warfighters in theater and stability operators during pandemic outbreaks. State-of-the-art personal protective equipment (PPE) can be bulky, heavy, and cumbersome, often severely limiting user mobility and performance. The Personalized Protective Biosystem (PPB) program aims to develop technology that reduces the need for burdensome protective equipment while increasing individual protection against CB threats.
DARPA recently awarded contracts to the following performers, FLIR Systems, Leidos, and Charles River Analytics, to develop lightweight materials and adaptable, tissue-protective countermeasures to provide on-demand, broad spectrum, and rapid long-term protection. Performers will seek to leverage molecular technologies and commensal organisms to unburden protective equipment demands from t
Published 30 April 2021
Chemical and biological (CB) threats have become increasingly ubiquitous and diverse, presenting significant risks to soldiers in theater and stability operators during pandemic outbreaks. PPE can be bulky, heavy, and cumbersome, often severely limiting user mobility and performance. A DARPA program aims to develop technology that reduces the need for burdensome protective equipment while increasing individual protection against CB threats.
Chemical and biological (CB) threats have become increasingly ubiquitous and diverse, presenting significant risks to soldiers in theater and stability operators during pandemic outbreaks. State-of-the-art personal protective equipment (PPE) can be bulky, heavy, and cumbersome, often severely limiting user mobility and performance. The Personalized Protective Biosystem (PPB) program aims to develop technology that reduces the need for burdensome protective equipment while increasing individual protection against CB thre