Award Data

US warfighter safety could be significantly improved by providing an ability to quickly and accurately assess the acoustic impact of rotorcraft operations in the field and reduce the likelihood of detection. Current mission planning tools are empirical in nature, limited to operating conditions for which flight test data exists and challenged in predicting the acoustic impact of maneuvering flight ...

The AR3P (Autonomous & Robotic Remote Refueling Point) is in need of a reliable and efficient grounding system. Traditional grounding systems are semi-permanent structures that require a 6 to 9 foot grounding rod be installed into terrain. This proposal outlines the development of a virtual ground for enabling autonomous refueling which will eliminate the need for this grounding stake. By “freei ...

As autonomous vehicles become more prevalent in day-to-day military and industry operations, the technology surrounding functionally-safe autonomous subsystems must become increasingly reliable. A vehicle’s kinetic energy must be safely dissipated during a stop. Steering and braking must be done intelligently to maintain vehicle control and mitigate vehicle wear and tear. There are many factors ...

Gas turbine engines that operate in regions with high concentrations of dust/sand are prone to suffer accelerated deterioration due to erosion, plugging, melting, deposition, coating degradation and consequential damage. Dust/sand ingested into the inlet of gas turbine engines is pulverized by the turbomachinery to ultra-fine size, typically less than 10 micrometers. The ultra-fine dust is difficu ...

To meet the demands of topic A19-009, the MaXentric team proposes the MAESTRO (Millimeter-wave Amplifier under Efficient Switching-mode and Time-multiplexing Operations), which provides a new concept of a power amplifier in millimeter-wave frequency band for commercial and military communication and electronic warfare applications. Using time-multiplexing technique and switching-mode amplifier, hi ...

A major innovative thrust in Army tactical operations is routine use of small Group 1 UAS for surveillance and sensing missions. However, for effective and stealthy use of such assets, low acoustic signature is critical. At present, capabilities for designing such vehicles for minimum noise is extremely limited, especially when combined with the challenge of designing to meet critical mission requ ...

Rotorcraft, both civilian and military, suffer from higher operating costs relative to their fixed-wing brethren due to cyclical loading that limits the useful lifetime of key structural components. Important recent advances in aeromechanics prediction capabilities, coupled with enhanced modeling of fatigue growth on life-limited parts, now allows development of a methodology both to predict real- ...

To meet the demands of the A19-029 SBIR solicitation (“Wideband, Programmable, Multifunctional Transmitter/Receiver (TRX) Module”), we propose a novel approach which leverages our wideband front-end technology and previous experience developing TRX modules. The system will support fast hopping (FHSS) via a novel architecture approach. Furthermore, single frequency full duplex operation will be ...

According to Jane’s, “High Frequency (HF) communication systems are witnessing a resurgence as forward deployed and small unit teams seek to overcome emerging challenges associated with operating in Command and Control Denied or Degraded Environments (C2D2Es)”. According to senior service personnel from across the NATO special operations community, HF communications are being considered by m ...

A 1280x720 on 8 µm pitch short wave infrared (SWIR) imager will be developed for night vision goggle applications. This imager will be low cost,