Air Force Research Laboratory
Information technologies touch every Air Force, Department of Defense (DoD), and National mission. The success of the mission relies on the quality and trustworthiness of the information technologies and information that they process. The talented people of the Air Force Research Laboratory Information Directorate (AFRL/RI) are dedicated to making a difference to the warfighter and the nation through research excellence and a close relationship with customer. AFRL/RI solutions transform and communicate information to commanders and decision makers, enabling them to direct their forces in Air, Space and Cyberspace to achieve mission success.
air force research laboratory
The Information Directorate researches and develops Command, Control, Communications, Computers, and Intelligence (C4I) and Cyber technologies to ensure the effective and unparalleled ability to process raw data and intelligence into actionable information. AFRL/RI accomplishes the mission through a blend of state of the art research facilities, world class researchers, and strategic collaborations. A unique customer understanding is achieved by having AFRL/RI engineers embedded with its customers at their locations. This not only provides the researchers with first-hand experience with the customer's problems and needs, but also with valuable insights into larger issues, current and future, that the customer may not even know. The Information Directorate's cadre of researchers works with the customer to solve near-term problems jointly and strategically, as well as as to address long term issues before they ever become problems. Year after year, customers bring their business because of the Information Directorate's deep understanding of the state of the art and state of the possible, coupled with current and future needs. AFRL/RI brings together in a single location top Command, Control, Communications, Computers, and Intelligence (C4I) and Cyber researchers from around the country and the world to research, design, develop, prototype, test and evaluate solutions for the Air Force's and Nation's pressing needs.
The Information Directorate research and development success is evident through over 100 technologies transitioned to the warfighter within the last two years and over 35 patents granted or filed over the same time period. AFRL/RI expands its own knowledge base as well as that of the civilian sector through partnerships with academia and industry and grows future leaders in Science, Technology, Engineering, and Math (STEM) by partnering with educational institutions to develop challenge competitions, summer camps, mentoring, internships, and workshops. The Information Directorate addresses national security needs both through the technologies transitioned today and the leaders being developed for tomorrow.
Despite advances in EPS, current technologies still suffer from drawbacks such as low efficiency (ratio of entangled pairs per pump photon), poor optical coupling (the entangled photons must be generated in well-defined spatial modes to be distributed over fiber or free space links), low heralding efficiency (ratio of coincidence rate to the product of the singles rates), and poor scaling of fidelity with the EPS rate. Innovative research and development that resolves several of these limitations would greatly advance DoD capabilities.
The Air Force Research Laboratory (AFRL) is a global research enterprise supporting two services, the U.S. Air Force and the U.S. Space Force. From laser-guided optics enabling telescopes to see deeper into the universe to fundamental science that has spawned innovations in quantum computing and artificial intelligence, AFRL rapidly scales discovery to deliver leading-edge technologies for the military.
Purdue and AFRL officials are working to identify priority areas for research collaborations through the pilot program. Jeffrey Rhoads, director of Herrick Labs and Purdue University professor of mechanical engineering, said that Purdue and AFRL are treating the hub like a startup.
Workforce development is an expected benefit of the pilot program, with AFRL expected to share technology innovations with students and faculty. That experience can bolster workforce opportunities at AFRL, partners within the hub collaborations and elsewhere.
Expansion of workforce opportunities aligns with existing projects, such as Scalable Asymmetric Lifecycle Engagement (SCALE), a workforce development program led by Purdue and funded by the Department of Defense that engages more than 70 academic, industrial, and governmental partners and is training students to be future experts in microelectronics areas.
The deputy met with AFRL Commander Air Force Maj. Gen. Heather Pringle to discuss AFRL priorities and other AFRL leadership to discuss workforce enhancement efforts to create enduring advantages. AFRL employs around 6,000 military and government civilians and has facilities in 10 states. They support science and technology efforts for both U.S. Space Force and the U.S. Air Force.
Dr. Hicks also received a briefing on the AFRL Regional Research Hub Network- a new science and technology ecosystem with universities, large and small businesses, other government agencies, and venture capitalists. With regional hubs located at Cornell University and Purdue University, AFRL will leverage research, translation, and workforce development successes across the country integrating stakeholders to encourage science and technology exchanges and drive innovation.
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The University of Connecticut is continuing its research partnership with the Air Force Research Laboratory (AFRL) to engage in vital collaborative research and development with both large and small Connecticut businesses in the aerospace industry and to educate students to work on similar design and manufacturing challenges after they graduate.
The group is also helping design better-performing casting alloys. They are using computer modeling together with an experimental benchmark casting process to determine how these alloys will behave during manufacturing. The experimental casting facility, the IMS Foundry, is a major asset for manufacturing research, as well as STEM teaching and outreach.
Welcome to the U.S. Air Force Research Laboratory (AFRL) DoD Supercomputing Resource Center (DSRC). We are a high performance computing (HPC) facility committed to providing the resources necessary for Department of Defense (DoD) scientists and engineers to complete their research, development, testing and evaluation projects.
An Air Force research pioneer and former high school chemistry teacher, Col Frank J. Seiler was a strong advocate of in-house research and the effective use of young scientific officers and officer-candidates. Civilian university students had always participated in the research, and Seiler envisioned that if Air Force Academy cadets could be involved in real-world research efforts, they would be better prepared for their future assignments.
Seventy-four scientists and engineers from the AFRL advised 165 cadets and worked with them remotely to complete various research projects. In one effort, students supported an experimental flight test program.
(See the Academy's last two news reports on cadet research at -Display/Article/2269018/cadet-research-at-af-academy-in-full-swing-despite-coronavirus/ and -Display/Article/2191282/dod-super-computer-aids-cadets-aero-research-at-academy/ )
Researchers from the School of Polymer Science and Engineering (SPSE) at USM will partner with the High-Performance Materials Institute (HPMI) associated with the FAMU-FSU College of Engineering (FAMU-FSU Engineering), the joint engineering educational and research institution for Florida A&M and Florida State universities, to study, design, and test large lightweight sample panels capable of scale-up manufacturing to provide multifunctional performance for aerospace applications.
The project emphasizes training of domestic students to develop a workforce of next-generation aerospace composite scientists and engineers to meet an emerging need of highly skilled professionals. The partnership exchanges researchers between the universities, AFRL and strategic industrial collaborators.
The joint university team includes faculty members and lead researchers James Rawlins, Jason Azoulay, Yoan Simon, Sergei Nazarenko, Olivia McNair and Jinhai Yang from USM, and HPMI researchers and FAMU-FSU Engineering professors Jin Gyu Park, Rebekah Sweat, Mei Zhang, Arda Vanli and Qiang Wu.
Under the terms of the agreement, this collaboration and research initiative will allow the Department of the Air Force and Astroscale U.S. to conduct RPOD testing in an operational environment, thereby reducing the risk of rapidly developed technology on operational vehicles. Additionally, the effort will allow the Air Force to accelerate the timeline of an in-space logistics chain as recommended in the USAF 2030 Science and Technology Strategy.
About Astroscale U.S. Astroscale U.S. Inc. provides on-orbit services and logistics across all orbits for commercial operators, the U.S. government and partner governments around the world. Astroscale U.S. is headquartered in Denver, Colorado, and is a subsidiary of Tokyo-based Astroscale Holdings Inc., the first private company with a vision to secure the safe and sustainable development of space for the benefit of future generations, and the only company solely dedicated to on-orbit services across all orbits. Astroscale Israel Ltd., based in Tel Aviv, is a subsidiary of and serves as the research and payload development team for Astroscale U.S. Astroscale U.S. leverages the best of investments and developments made by Astroscale engineering, policy and business teams domestically and in Japan, the United Kingdom and Israel to provide flexibility and value for space operations in the U.S. and partner nations. 041b061a72