Defense Advanced Research Projects AgencyTagged Content List

Ground Systems

Manned and unmanned terrestrial systems, including vehicles, robotics and supporting technologies

Showing 5 results for Ground + Decentralization RSS
02/05/2014
In today’s rapidly evolving mission environments, warfighters need new vehicles, weapons and other systems fielded quickly. Current design and development approaches, however, are unable to deliver those systems in a timely manner. To help overcome these challenges, DARPA’s Adaptive Vehicle Make (AVM) portfolio of programs is working to develop revolutionary approaches for the design, testing and manufacturing of complex defense systems, with the goal of shortening development timelines by five times or more. Thanks to strong early test results and a new opportunity to transition the technology, DARPA has decided to speed its current AVM successes to the defense industrial base in 2014—years earlier than originally planned.
06/15/2017
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. To address this challenge, a new DARPA program is aiming to create powerful, digital tools for exploring novel expeditionary urban operations concepts—with a special emphasis on coastal cities, where future such battles are deemed most likely to occur. The program will test the new tools and concepts in an integrated virtual environment, with the ultimate goal of developing fluidly composable force packages able to maximize tactical advantage in these complex, urban environments.

Adaptive Vehicle Make (AVM) is a portfolio of programs that address revolutionary approaches to the design, verification and manufacturing of complex defense systems and vehicles. The portfolio consists of three primary programs: META, Instant Foundry Adaptive through Bits (iFAB) and Fast Adaptable Next-Generation Ground Vehicle (FANG).

Following the announcement of a winner of the first FANG Challenge in April 2013, the winning design was built and tested. The test data has verified the new design paradigm, and as a result, DARPA is pursuing an opportunity for an early transition of the program to industry in 2014.

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.
09/28/2018
The goal of the Adapting Cross-domain Kill-webs (ACK) program is to develop an overall framework, algorithms, and software prototypes for decentralized construction and adaption of multi-domain (space, air, land, surface, subsurface, cyber) kill webs – i.e. software decision aids to coordinate the selection of the specific sensors, effectors, and support elements across domains to form kill webs delivering desired effects on targets.