Defense Advanced Research Projects AgencyTagged Content List

Mobile Technology

Technologies and advances that facilitate wireless, ubiquitous transmission, including miniaturization

Showing 8 results for Mobile + Tech-Foundations RSS
DARPA’s Strategic Technology Office (STO) is focused on technologies that enable fighting as a network to increase military effectiveness, cost leverage, and adaptability.
12/16/2016
Here’s something easy to forget when you are chatting on your cell phone or flipping channels on your smart TV: although wireless communication seems nothing short of magic, it is a brilliant, reality-anchored application of physics and engineering in which radio signals travel from a transmitter to a receiver in the form of electric and magnetic fields woven into fast-as-light electromagnetic waves.
06/23/2017
DARPA’s Strategic Technology Office (STO) is hosting a “Sync with STO” event on August 2 - 3, 2017, designed to familiarize attendees with STO’s mission, problem spaces, program managers (PMs), and technology interests. The event aims to facilitate technical discussion between STO PMs and attendees that explore innovative and revolutionary ideas for addressing national security challenges.
08/04/2017
DARPA’s Strategic Technology Office (STO) this week unveiled its updated approach to winning or deterring future conflicts during Sync with STO Day, held in Arlington, Virginia. At the event—which attracted about 300 innovators and entrepreneurs, more than half of whom had never worked with DARPA before—STO program managers outlined new areas of interest and held discussions with attendees to explore innovative technology solutions for strategic national security challenges.
January 6, 2017 ,
Booz Allen Hamilton Conference Center
DARPA’s Microsystems Technology Office (MTO) is hosting a Proposers Day to provide information to potential applicants on the structure and objectives of the new A MEchanically Based Antenna (AMEBA) program. The objective of the AMEBA program is to develop mechanically driven transmitters producing radio frequency (RF) signals at carrier frequencies below 30 kHz. The AMEBA program will invest in basic research and development towards low-loss, precision-controlled, mechanical RF transmitter systems. AMEBA will also develop electric and magnetic materials that enable practical realizations of the mechanical transmitter concepts and designs.