Award Data

In the wake of ransomware reaching epidemic proportions and the current anti-ransomware products’ inability to stop its march, there is a great deal of urgency in creating effective countermeasures. Our proposal is to design and subsequently develop a technology called Program Access Control (PAC), that can positively protect data on both consumer and enterprise systems. If successfully dep ...

Sensors based on chip-scale atomic devices (CSADs) offer portability, manufacturability, and high performance for precision navigation and timing (PNT) missions. Key systems for PNT including atom interferometric gyroscopes (AIG) and atomic clocks. Ongoing advances and innovations in photonic integrated circuits (PICs) are directly relevant to CSADs. Different material bases have been used in PICs ...

Exosonic is developing a quiet Mach 1.8, 4500 nmi range supersonic civil aircraft that uses aerodynamic shaping techniques to mute its sonic boom. Exosonic is teamed up with Stanford University Prof. Juan Alonso's Aerospace Design Lab to apply the lab's low boom shape optimization tools to design this aircraft to meet future low-boom regulatory standards. The aircraft's primary customers are comme ...

Virtual EM and Case Western Reserve University are teaming to propose a standoff cardiopulmonary sensing technology to aid remote monitoring of airman and others ' physiological state of health both in the field and in the office environments. While the pulmonary sensing unit could be operated meters away, the cardio signals are picked up in closer proximity to the body.

Vital sign, such as respiration rate and heart rate, provide important indications of the physiological and mental conditions of an Airman. Being able to understand the physiological and mental conditions of an operator is therefore of vital importance to improving the efficiency and efficacy of future Air Force operations. Current state-of-the-practice in continuous cardiopulmonary vital sign mon ...

Through simultaneous control of the polarization and frequency modulation of an outgoing continuous-wave (CW) sodium guide star laser beam, demonstrate a new concept to maximize the resonant backscattered flux per watt of projected laser power, taking advantage of enhancements from both optical pumping of mesospheric sodium atoms to a trapped transition and alignment of the atoms with the geomagne ...

Large ground-based telescopes require adaptive optics (AO) to correct for distortions introduced by atmospheric turbulence. In order to function, the AO system must track a bright point source. Although a natural star may be used, full sky coverage requires an artificial beacon created with a laser. The most common type of laser guide star (LGS) employs the mesospheric layer of sodium atoms at an ...

A Virtual Reality for Multi-Int Deep Learning modeling and simulation environment is proposed which draws from proven advances in modeling and simulation, Big Data technologies and industry leading machine intelligence platforms. RF Physics-based models and simulators focus the environment in the RF domain. A design model emphasizes Big Data control, archive, management, and analytics maintaining ...

New, innovative laser spectroscopy technology will be developed for performance quantification and combustion characterization in a Rotational Detonation Rocket Engine (RDRE). The effort will push the state of the art in tunable laser absorption spectroscopy to enable fast time response diagnostics of the extreme pressure and temperature conditions of an RDRE.

The efficient detection and understanding of clandestine nuclear device testing is critical to the security and credibility of the organizations currently tasked with this important work. At present, the Air Force Tactical Applications Center (AFTAC) and likewise, the Comprehensive Test Ban Treaty Organization (CTBTO) are running methods and algorithms that are out of date. These approaches use a ...