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Posts Tagged army technology
ABERDEEN PROVING GROUND, Md. (Jan. 28, 2014) — Australia’s chief defense scientist met with U.S. Army leaders Jan. 27 to explore opportunities for research and development partnerships.
The U.S. Army’s engagement with foreign partners in fostering science and engineering is essential to ensuring that Soldiers, as well as American allies, have access to the world’s best technology, said Dale A. Ormond, director of the U.S. Army Research, Development and Engineering Command.
“We are trying to expand our international outreach,” Ormond said. “Seventy percent of the money spent worldwide on science and technology is outside the U.S. There are great scientists and engineers everywhere. [It's important to] go find out who they are and work with them.”
Read more: http://go.usa.gov/BC6w
ABERDEEN PROVING GROUND, Md. — The U.S. Army is nearing completion on a project to eliminate its dependency on foreign countries for a critical energetic component in artillery and mortar ammunition, officials said.
Because of changes in the global cotton industry, the United States no longer has a domestic source of quality raw material for manufacturing nitrocellulose for combustible cartridge cases that are used extensively by the military. A domestic source is necessary to ensure a sufficient supply of quality cartridge cases, which is vital to maintaining readiness of the armed forces, according to Army experts.
ABERDEEN PROVING GROUND, Md. (Dec. 5, 2013) — The U.S. Army Research, Development and Engineering Command presented upcoming contracts Dec. 4 during APG’s second annual Advanced Planning Briefing for Industry conference.
Mary Miller, deputy assistant secretary of the Army for Research and Technology, discussed the current state and the future of Army science and technology during her keynote speech at the APG Post Theater. She emphasized that the research and development community will serve a key role in shaping the Army’s future after 12 years of war.
“It’s important to understand the role of science and technology and the balance we have to strike. Our responsibility is to build the Army of the future, but we still need to take care of the Army that we currently have,” Miller said. “Our balance has been changing as circumstances dictate. In the last decade of war, we have spent a lot of our time and thought equity helping the current force through urgent requirements and needs coming out of theater.
“We determined how to fix those problems that Soldiers have and give them critical solutions. As we’re coming out of war, we’re seeing the need to get back to our roots and look to the Army of the future.”
WASHINGTON (Nov. 14, 2013) — The U.S. Army showcased how its research and engineering centers are enabling advances in operational energy for Soldiers Nov. 14 at the Pentagon.
Subject matter experts from across the U.S. Army Research, Development and Engineering Command discussed their work in technologies that included Soldier-borne electronics, ground-vehicle fuel efficiency and sustainable base camps.
ABERDEEN PROVING GROUND, Md. — Computer networks face persistent cyber threats from the nation’s adversaries. The future defenders of cyberspace, America’s students, honed their skills this summer as they learned from U.S. Army scientists and engineers who are experts in the field.
Cybersecurity practitioners from across the U.S. Army Research, Development and Engineering Command joined forces to spark an interest and share their knowledge with high-school students as part of the Army Educational Outreach Program at APG.
Two RDECOM organizations — Army Research Laboratory and the Communications-Electronics Research, Development and Engineering Center — partnered to develop and deliver two Gains in the Education of Mathematics and Sciences cyber programs in July.
GUNPOWDER MILITARY RESERVATION, Md. — Thirty U.S. Army civilians now have a greater appreciation and understanding of the rigors and challenges associated with Soldier tasks.
Five days of intense training provided first-hand experience of the technical and physical demands on Soldiers.
Maj. Shane Sims, a military deputy at the U.S. Army Research, Development and Engineering Command’s communications and electronics center, led a Greening Course for the civilians from Aberdeen Proving Ground. One of his goals was for participants to think like Soldiers during the training rotations.
ABERDEEN PROVING GROUND, Md. – An exchange program participant has expanded the relationships between the U.S. and Chilean scientists and engineers.
Jasmine Serlemitsos, a U.S. Army environmental engineer, said her goal was to strengthen the countries’ connections in science and technology. At the Chilean Army’s Institute of Research and Control, or IDIC, she worked in surveillance for the safe storage of ammunition.
“I focused my goals primarily on building relations between the people in the U.S. who did work in the ammunition side and learning how to do international agreements. [The Chileans] seemed very receptive to that,” said Serlemitsos, who served in Chile from September 2012 to July 2013 as part of the Army’s Engineer and Scientist Exchange Program.
ABERDEEN PROVING GROUND, Md. (Oct. 23, 2013) — British and U.S. Army researchers are partnering to enhance biometric and surveillance capabilities as the result of an exchange program between the countries.
Dr. Kevin Leonard, a U.S. Army physicist, focused on advancing facial-recognition technologies during his two-year assignment in the United Kingdom.
“How far can we look and see who someone is? How can we help our Soldiers see better and farther?” said Leonard, who was assigned to the UK Defence Science Technology Laboratory in Salisbury.
Leonard said he wanted to better understand how different countries approach similar scientific topics. When the DSTL chief executive visited Leonard’s organization to talk about possible collaborations, an area of mutual interest was biometrics. The discussions piqued Leonard’s interest.
PICATINNY ARSENAL, N.J. (Sept. 26, 2013) — Secretary of the Army John McHugh was at the Picatinny Arsenal Thursday, to assess the effect of sequestration on the installation’s efforts in research, development, acquisition and lifecycle management of weapon systems and ammunition.
“This is a unique facility with a critically important mission; there really is no other government or industry counterpart to Picatinny,” McHugh said, underscoring the arsenal’s contribution to national security. “The workforce possesses knowledge and expertise that increases the lethality of the joint services warfighter.”
Picatinny Arsenal was designated the Joint Center of Excellence for Guns and Ammunition, providing products and services to all branches of the U.S. military.
PICATINNY ARSENAL, N.J. (September 25, 2013) — As the power and popularity of mobile devices grows, so does the desire for faster data processing without consuming much power.
The HyperX computer chip technology, under development by researchers at Picatinny Arsenal holds the promise to deliver that goal for both commercial and military users.
The small, HyperX chip was intentionally designed to meet high volume, low power processing requirements.
ABERDEEN PROVING GROUND, Md. (Sept. 20, 2013) — Spending two years immersed in the Australian defense science and technology community provided new perspectives for a U.S. Army engineer.
Steve Carrig said his work with the Australian military allowed tremendous access to end users — Soldiers — because of the country’s smaller size.
“Having the chance to work with Soldiers on a more routine basis gives you a sense of who you’re working for,” said Carrig, who participated in the Army’s Engineer and Scientist Exchange Program from July 2011 to June 2013 at the Defense Science and Technology Office. “Having spent two years in a more closely knit environment really drove it home.
“That’s something that I won’t forget. Even if I’m sitting here in an office every day, managing things from afar, it reminds me that’s what I’m doing.”
ABERDEEN PROVING GROUND, Md. (Aug. 28, 2013) — Soldiers facing rugged terrain and extreme temperatures are continually searching for ways to reduce the weight of their gear.
In a search for solutions to this persistent issue, U.S. Army scientists and engineers have preliminarily demonstrated body armor that is 10 percent lighter through new manufacturing processes.
The U.S. Army Research, Development and Engineering Command, known as RDECOM, along with its industry partners, has leveraged the Army’s Manufacturing Technology Program to spur the Advanced Body Armor Project.
PICATINNY ARSENAL, N.J. (September 18, 2013) — When preparing to face a more talented opponent, coaches tell their players that the path to victory is pulling together as a team to somehow obtain more than a sum of each player’s talents.
For Army scientists, that same concept may have been expressed in the form of an advanced algorithm that gets optimum performance from a team of inertial sensors, which could be used to guide cannon-fired munitions to a target with near precision, even without Global Positioning Satellite navigation.
In addition to high performance, a big advantage to the team of sensors is greatly reduced cost.
PICATINNY ARSENAL, N.J. — Actor John Ratzenberger, best known for his iconic role as postal worker Cliff Clavin on the TV show “Cheers,” is promoting manufacturing in the U.S.
His interest led him to visit Picatinny Arsenal Sept. 4, where he saw first-hand a number of the advanced manufacturing techniques the installation uses to equip the nation’s warfighters.
Ratzenberger’s interest in manufacturing previously inspired him to produce and host shows like “Made in America,” a Travel Channel TV production highlighting manufacturing companies that produce interesting products across the nation.
PICATINNY ARSENAL, N.J. (August 22, 2013) — An enemy convoy transporting a supply of fuel rumbles across the desert floor, an ideal target for armor-piercing incendiary projectiles.
These projectiles are most useful for “after-armor effects,” such as an incandescent flash immediately after penetrating a hard target. The resulting plume may be useful for devastating any fuel-storage facilities by igniting the fuel vapors.
The Army uses a formulation called IM-28 that is charged into certain armor-piercing incendiary projectiles, which can be fired from such weapons as the M2, M3, and M85 machine guns.
PICATINNY ARSENAL, N.J. — So there was this high school student who just graduated this year who presented a paper at the Monmouth Junior Science Symposium that was so thorough with his independent research on nanotechnology that we just had to get him a personal invite to come and tour our labs. Seriously exciting.
PICATINNY ARSENAL, N.J. — Sure we’re already the Joint Center of Excellence for Armaments and Munitions. Now we’ll also be known as a degree granting institution. Who will be the first to earn their PhD from Picatinny Arsenal?
ABERDEEN PROVING GROUND, Md. — U.S. Army Reserve officers are serving a key role in identifying and addressing science and technology needs during a major U.S. Army exercise in the Pacific.
Col. John Olson is leading four officers from the Army Reserve Sustainment Command, Detachment 8, who will deploy to South Korea in August for Ulchi Freedom Guardian 2013.
The team interacts with Soldiers to better understand how Army scientists and engineers can improve capabilities on the peninsula, Olson said.
“These are real-world shortfalls. It’s part of a real-world war plan,” said Olson, who also participated in UFG 2011. “If we don’t begin to address this now, we may not be able to address these issues when a war starts.
“They understand there are important capability gaps that we can begin addressing now prior to actually needing them.”
PICATINNY ARSENAL, N.J. — Picatinny Arsenal and the New Jersey Institute of Technology coordinated a visit here for middle school girls to get them excited about careers in science and technology. How’d it go? You’ll have to find out yourself.
ABERDEEN PROVING GROUND, Md. — Aspiring scientists and engineers are now exploring their future careers at a unified APG facility dedicated to education outreach.
APG ushered in a new era of partnerships in science, technology, engineering and mathematics for northeast Maryland with a ribbon-cutting ceremony July 30.
The APG STEM and Education Outreach Center brings tenant organizations together to pool resources that will enhance students’ experiences in scientific and engineering disciplines. The facility accommodates up to 200 students.