Disruptioneering: Streamlining the Process of Scientific Discovery
August 15, 2017 | DARPAEstimated reading time: 2 minutes
DARPA’s Defense Sciences Office (DSO)—whose mission is to identify and pursue high-risk, high-payoff research initiatives across a broad spectrum of science and engineering disciplines—today announced the first programs under its new Disruptioneering effort, which pushes for faster identification and exploration of bold and risky ideas with the goal of accelerating scientific discovery.
Under the new concept, DSO program managers intend to develop small programs of $5 million or less in total funding on an expedited timeline, with an initial target of less than 90 days for progressing from idea inception to contract award and a downstream target of fewer than 75 days.
A Special Notice for the initiative’s first two programs, Fundamental Design (FUN DESIGN) and Imaging Through Almost Anything, Anywhere (ITA3), posted on FedBizOpps today at the following links: https://go.usa.gov/xRpgR and https://go.usa.gov/xRpgP. FUN DESIGN aims to investigate new fundamental computational and mathematical building blocks for representing novel and optimized designs of mechanical systems. ITA3 seeks to determine the 3-D resolution/range trade space based on the use of all-pervasive low-frequency, electromagnetic waves, combined with simple computational methods to consider the challenge of imaging through metal containers, walls, ground, fog, water, and other complex media. Additional Special Notices are expected to follow in the near future and will also be announced on FedBizOpps.
“There’s a vast waterfront of research in science and technology that we’re constantly scanning and probing for the next big discovery,” said Tyler McQuade, acting director of DSO. “These Disruptioneering ‘mini-programs’ are designed to quickly explore some of the most radical and potentially highest-payoff ideas to see if there’s something there to be pursued further. The goal is to speed up the tempo of innovation and ultimately to reduce risk by making smaller targeted investments that could lead to quantum leaps forward in technology for national defense.”
Disruptioneering programs will follow a standard format: a three- to six-month first phase to initially assess a novel idea, potentially followed by a second phase of 12 to 15 months, if results from the first phase warrant further exploration and investment.
“For this new Disruptioneering effort, the time from program announcement to when research proposals are due has been shortened to as few as 30 days, and the technical section of proposals can’t exceed eight pages,” said Kristen Fuller, DSO’s assistant director for program management. “To make the process as straightforward as possible, we’ve streamlined contracting and internal processes to meet an aggressive schedule. We’ve also developed standardized Disruptioneering templates for cost analysis and other requirements and included them as an appendix in DSO’s Office-Wide BAA.”
DSO programs can often take six months or longer after receipt of proposal for contracts to be signed and for work to begin. “Since DARPA program managers only have three to five years to pursue their potentially game-changing ideas, we want to do everything possible to cut the time from idea inception to when research can start,” Fuller said. “Disruptioneering programs should serve as a great additional framework to enable program managers to make a quick initial investment to investigate novel scientific ideas. If the idea turns out to be promising, it could become the basis for a larger program.”
Suggested Items
Canon Eyes Significant Expansion of Core Business in India
06/07/2024 | PRNewswireHighlighting India's crucial role in its global growth strategy, Canon today announced its outlined plans for strengthening its core business segments of imaging, printing, and surveillance, along with growing presence in the Semiconductor, Flat Panel Display business and the medical industry.
Connect the Dots: Designing for Reality—The Physical Manufacturing Phases
05/30/2024 | Matt Stevenson -- Column: Connect the DotsDesigning for reality is focused on the art and science of PCB design and production. If you’re trying to make a PCB that stands out for being reliable, easy to manufacture, and meets all design goals, then you’re in the perfect spot. We’re here to break down the PCB manufacturing process while sharing essential tips for smooth design and production.
Teledyne FLIR Defense Upgrades Surveillance Service Center Capability in Turkey
05/22/2024 | BUSINESS WIRETeledyne FLIR Defense recently completed a major upgrade to its partner-supported service center capability in Turkey that performs maintenance and repair work on the company’s advanced surveillance and imaging systems.
Quanta Partners with Obsidian Sensors to Spearhead Thermal Imaging Solutions
05/22/2024 | PRNewswireQuanta Computer Inc., a trailblazer in advanced technology solutions for computing, consumer electronics and smart automotive solutions, is partnering with Obsidian Sensors, Inc., a San Diego, California company, to produce high resolution thermal imaging cameras for automobiles.
SEMICON Europa 2024 Call for Abstracts Opens
05/21/2024 | SEMISEMI Europe announced the opening of the Call for Abstracts for SEMICON Europa 2024, to be held November 12-15 at Messe München in Munich, Germany. Selected speakers will share their expertise at the Advanced Packaging Conference (APC), Fab Management Forum (FMF), MEMS & Imaging Sensors Summit and during presentations on the show floor.