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DARPA Brings Game-Changing Technology and Its Creators to Pentagon

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Scientists and engineers from the Defense Advanced Research Projects Agency took over the Pentagon center courtyard today, defying gray skies and a steady drizzle to demonstrate to future users some of their most cutting-edge work for national security.

Defense Advanced Research Projects Agency Director Dr. Arati Prabhakar speaks with reporters during DARPA Demo Day 2016 at the Pentagon, May 11, 2016, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
Defense Advanced Research Projects Agency Director Dr. Arati Prabhakar speaks with reporters during DARPA Demo Day 2016 at the Pentagon, May 11, 2016, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
Defense Advanced Research Projects Agency Director Dr. Arati Prabhakar speaks with reporters during DARPA Demo Day 2016 at the Pentagon, May 11, 2016, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
DARPA Demo Day
Defense Advanced Research Projects Agency Director Dr. Arati Prabhakar speaks with reporters during DARPA Demo Day 2016 at the Pentagon, May 11, 2016, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
Photo By: Marine Corps Sgt. Drew Tech
VIRIN: 160511-M-GX711-070

Two of the Defense Department’s top technology leaders also were there to speak with reporters about DARPA’s mission -- Stephen P. Welby, assistant secretary of defense for research and engineering, and DARPA Director Dr. Arati Prabhakar.

In individual tents situated neatly around the courtyard, DARPA program managers and staff showed off and explained more than 60 of the agency’s programs involving air systems, biology, counterterrorism, cyber, ground warfare, maritime systems, microsystems, space and the electromagnetic spectrum.

“DARPA really is the disruption engine behind our technology enterprise in the department,” Welby said in an interview with DoD News, “working on cutting-edge technologies that are going to fundamentally shape our future, and working to bring that future into today.”

Welby, who also serves as the department’s chief technology officer, said Pentagon military staff members were “standing out in the rain talking to some of these brilliant folks about things that are going to change the way the department operates in the future.”

Innovation Engine

DARPA is an engine of innovation, he said, where scientists and engineers think about biology and new ways to keep soldiers healthy in combat environments, new ways to bring aircraft to maritime environments, and new space missions that could allow warfighters to do things in space they’ve never been able to do before.

“They're harnessing new materials, advances in computer science, the cutting edge of synthetic biology,” Welby said, “but they're doing it not with an eye toward … advancing their academic careers. They're thinking about how they can couple that to systems that will matter to the warfighter. That's what's really great about DARPA.”

Welby, himself a DARPA alumnus, said DARPA's secret weapon is making each research effort a three- to four-year program.

Stephen P. Welby, assistant secretary for defense for research and engineering, speaks with reporters during DARPA Demo Day 2016 at the Pentagon, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
Stephen P. Welby, assistant secretary for defense for research and engineering, speaks with reporters during DARPA Demo Day 2016 at the Pentagon, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
Stephen P. Welby, assistant secretary for defense for research and engineering, speaks with reporters during DARPA Demo Day 2016 at the Pentagon, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
DARPA Demo Day
Stephen P. Welby, assistant secretary for defense for research and engineering, speaks with reporters during DARPA Demo Day 2016 at the Pentagon, to give the Defense Department community an up-close look at the agency's portfolio of innovative technologies and military systems, May 11, 2016. DoD photo by Marine Corps Sgt. Drew Tech
Photo By: Marine Corps Sgt. Drew Tech
VIRIN: 160511-M-GX711-079

“The projects have a distinct start and a distinct finish, and DARPA recruits most of its staff as temporary-term appointments. These folks come in with three or four years to change the world, to make a difference, and under that intense pressure, under that clock, that's the secret weapon to moving the future in,” Welby said.

Brilliant people come to DARPA with a mission, he added, and with the determination to make things happen. That's the clock that matters most -- in that three or four years, how far they’ve pushed the state of the art and how fast they can create the art of the possible.”

‘Those Crazy Technologies’

In her remarks, Prabhakar said DARPA was at the Pentagon today because DARPA's mission is about breakthrough technologies for national security.

“Today is the day that we bring some of those crazy technologies into the Pentagon [to] get them in front of our customers and our partners -- people across all the military services and across DoD and the intelligence community,” she said.

DARPA cares about driving technology forward, the director added, “but it doesn't really count until we get it across the finish line, and that's what today is really all about.”

Prabhakar described some of the agency’s projects, including one that is in the process of making a connection with the services.

The Communications Under Extreme Radio Frequency Spectrum Conditions, or CommEx, program deals with the problem of communication systems for DoD aircraft. Link 16 is a military tactical data-exchange network used by the United States, NATO nations and several others.

“Those are now vulnerable to adversary jamming and new kinds of jamming threats,” Prabhakar said, “and CommEx is an upgrade that's now being inserted into Link 16 that will start giving those systems protection in a world in which the technology the adversary has keeps changing and becomes much harder for us to counter. We now have some answers to that.”

Accelerating Transitions

Bringing radically new technologies to DARPA Demo Day is an opportunity for program managers to talk to people about the kinds of new applications that might come from them, she said.

Behind every demo is an enormous amount of technical work that DARPA does by working with a broad, diverse exciting technical community around the country and sometimes in other parts of the world, the director said.

“Sometimes … we’re driving a brand new frontier, and then those technologies end up getting commercialized. Sometimes that's a very important part of getting the impact we need out of our technologies,” she explained.

One example is a program called Microphysiological Systems, Prabhakar said -- an example of a very advanced technology that's starting to move into commercialization through university start-up companies.

Recent DARPA research has shown the ability to accelerate production of millions of doses of vaccine using novel plant-based methods. But clinical trials for vaccines and drugs can’t be initiated without preclinical evidence of their safety in people. Human safety and drug performance is not always effectively predicted through animal testing and the Defense Department must rapidly develop and field safe and effective medical countermeasures against biological threats to warfighters. To create a pathway for fielding safe and effective countermeasures, DARPA has launched the Microphysiological Systems program. MPS will develop a platform that uses engineered human tissue to mimic human physiological systems. The interactions that candidate drugs and vaccines have with these mimics will accurately predict the safety and effectiveness that the countermeasures would have if administered to people. The resulting platform should increase the quality and potentially the number of novel therapies that move through the pipeline and into clinical care. DARPA photo
Recent DARPA research has shown the ability to accelerate production of millions of doses of vaccine using novel plant-based methods. But clinical trials for vaccines and drugs can’t be initiated without preclinical evidence of their safety in people. Human safety and drug performance is not always effectively predicted through animal testing and the Defense Department must rapidly develop and field safe and effective medical countermeasures against biological threats to warfighters. To create a pathway for fielding safe and effective countermeasures, DARPA has launched the Microphysiological Systems program. MPS will develop a platform that uses engineered human tissue to mimic human physiological systems. The interactions that candidate drugs and vaccines have with these mimics will accurately predict the safety and effectiveness that the countermeasures would have if administered to people. The resulting platform should increase the quality and potentially the number of novel therapies that move through the pipeline and into clinical care. DARPA photo
Recent DARPA research has shown the ability to accelerate production of millions of doses of vaccine using novel plant-based methods. But clinical trials for vaccines and drugs can’t be initiated without preclinical evidence of their safety in people. Human safety and drug performance is not always effectively predicted through animal testing and the Defense Department must rapidly develop and field safe and effective medical countermeasures against biological threats to warfighters. To create a pathway for fielding safe and effective countermeasures, DARPA has launched the Microphysiological Systems program. MPS will develop a platform that uses engineered human tissue to mimic human physiological systems. The interactions that candidate drugs and vaccines have with these mimics will accurately predict the safety and effectiveness that the countermeasures would have if administered to people. The resulting platform should increase the quality and potentially the number of novel therapies that move through the pipeline and into clinical care. DARPA photo
Microphysiological Systems
Recent DARPA research has shown the ability to accelerate production of millions of doses of vaccine using novel plant-based methods. But clinical trials for vaccines and drugs can’t be initiated without preclinical evidence of their safety in people. Human safety and drug performance is not always effectively predicted through animal testing and the Defense Department must rapidly develop and field safe and effective medical countermeasures against biological threats to warfighters. To create a pathway for fielding safe and effective countermeasures, DARPA has launched the Microphysiological Systems program. MPS will develop a platform that uses engineered human tissue to mimic human physiological systems. The interactions that candidate drugs and vaccines have with these mimics will accurately predict the safety and effectiveness that the countermeasures would have if administered to people. The resulting platform should increase the quality and potentially the number of novel therapies that move through the pipeline and into clinical care. DARPA photo
Photo By: DARPA
VIRIN: 160511-D-ZZ999-996

MPS “is building cell cultures that emulate human organs, and they give us a platform that would allow us to test suspicious threat agents when we don't want to test them on people,” she added. “It gives us a safe way to get much more realistic testing.”

Commercial Push

Another example will be the DARPA Cyber Grand Challenge, to be held in Las Vegas in August just before the DEFCON 24 Hacking Conference there.

“We have created ‘a league of their own’ for machines to conduct cyber defense operations. It's going to be the first time ever that teams are going to compete by turning their machines on and letting them fight it out in a capture-the-flag game just for machines to play,” Prabhakar said.

Doing that, she said, will help DARPA develop advanced cyber defense capabilities that will have enormous commercial applications -- another way that DARPA will have access to the technologies.

“Participants in that competition include a lot of universities but also a couple of small companies,” she added. “One has posted on its website that it plans to make commercially available all the things it's developing through the Cyber Grand Challenge.”

Advancing the technology and getting the commercial push is one part of what DARPA does when the commercial sector is aggressively driving technology, which is then available around the world, the director said.

DoD Secret Sauce

Another thing DARPA does in many programs is to grab leading-edge commercial technology and add DoD “secret sauce” to it. “By combining those we're able to build systems that no one else on the planet can build,” she said.

An example is called Diverse Accessible Heterogeneous Integration, or DAHI, Prabhakar said, pulling a small wafer out of her pocket.

“This is leading-edge commercial silicon technology that is the best you can get around the world,” she said. “But very deeply integrated with this are small dies of very specialized gallium nitride or indium phosphide technology.”

When those specialized components are combined with that leading-edge technology, DARPA is able to build very compact systems. But even more importantly, the director said, “we're going to be able to build systems that have technical performance way out ahead of what's commercially possible.”

(Follow Cheryl Pellerin on Twitter @PellerinDoDNews)

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