Defense Advanced Research Projects AgencyTagged Content List

Resilience and Robustness

Enabling technologies and systems to preserve effectiveness despite damage or other challenging conditions

Showing 80 results for Resilience RSS
As nation-state and non-state adversaries adapt and apply commercially available state-of-the-art technology in urban conflict, expeditionary U.S. forces face a shrinking operational advantage in potential future military conflicts, which are most likely to be fought in littoral and coastal cities. The goal of the Prototype Resilient Operations Testbed for Expeditionary Urban Operations (PROTEUS) program is to create and demonstrate tools to develop and test agile expeditionary urban operations concepts based on dynamically composable force packages.
RSPACE seeks to create a revolutionary distributed planning capability to provide resilient command and control (C2) and to manage complex military operations even when communications are limited and unreliable. RSPACE is developing human-centered software decision aids that, based on the commander’s intent, will help operators throughout the C2 enterprise control daily operations in a complex battlespace – composing mission packages (coordinating across the network as needed), responding to emerging opportunities, and assessing progress towards achieving the commander’s intent. RSPACE is focused on the operational level of the air operations domain.
Military logistic support has a large human cost in contested environments with no ability to create valuable materials when and where needed. DARPA’s ReSource program aims to revolutionize how the military procures critical supplies on the battlefield by engineering self-contained, integrated systems that rapidly produce large quantities of supplies from feedstock collected on-site. Envisioned on-demand products include lubricants, adhesives, tactical fibers, potable water, and edible macronutrients.
Current artificial intelligence (AI) systems excel at tasks defined by rigid rules – such as mastering the board games Go and chess with proficiency surpassing world-class human players. However, AI systems aren’t very good at adapting to constantly changing conditions commonly faced by troops in the real world – from reacting to an adversary’s surprise actions, to fluctuating weather, to operating in unfamiliar terrain.
Modern military engagements increasingly take place in complex and uncertain battlefield conditions where attacks can come from multiple directions at once, and in the electromagnetic spectrum and cyber domains, as well. U.S. Army and U.S. Marine Corps dismounted infantry squads have been unable to take full advantage of some highly effective multi-domain defensive and offensive capabilities that vehicle-assigned forces currently enjoy -- in large part because many of the relevant technologies are too heavy and cumbersome for individual warfighters to carry or too difficult to use under demanding field conditions.