Award Data

The SKATE concept was designed to quantify skill levels of trainees, teams, or units, generate skill-appropriate training scenarios, and provide a continuous skill-level assessment of disparately skilled trainees, teams, and units in a joint training exercise while maintaining the overall integrity and realism of the mission itself. SKATE evaluates the skill level of an individual, teams, or unit ...

Bridger Photonics (BP) and collaborative partner Montana State University (MSU) propose to develop a completely novel, non-mechanical scanning mechanism that will enable a compact, high-resolution, imaging LADAR system for enhanced navigation aid during helicopter brownouts. Such systems are becoming prominent in today’s modernized military especially as the cost in lives and dollars has come to ...

Energy harvesting devices utilizing magnetostrictive materials are a logical choice for harvesting the high impedance (high force, low displacement) vibrations found aboard Navy ships. Force-based devices, enabled by magnetostrictive materials, can harvest energy over an extremely large bandwidth, approximately ±35 and ±70 Hz currently, making them more desirable in situations aboard Navy ships ...

SciFish proposes to utilize Resonance Scattering Theory (RST) modeling to evolve a set of acoustic waveforms that provide optimal material identification while suppressing the affects of clutter and noise. Each waveform will be defined by its bandwidth, pulse width and signal type. Signal types will include FM, Hyperbolic FM, and Phase Shift Key Coded waveforms. An initial set of waveforms will be ...

The aerodynamic performance of aircraft is significantly impacted by the aero-elastic dynamics of its control surfaces. In particular, the dynamics of flutter - an unstable self-excitation of structure due to undesirable coupling of structural flexibility and aerodynamics - has critical impact on the stability and performance of aircraft. The control surface flutter characteristics are affected by ...

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Advancements in digital signal processing (DSP) and video technology have created an opportunity to develop a low-cost system to allow people with disabilities to control a computer using head and eye movements. A software-based system would be developed to track head and eye movements at much lower cost than the hardware-based systems currently available. The processing power available on the c ...

We propose to use physiological sensors to measure the quality of a trainee's interaction with a virtual environment (VE) as a function of VE fidelity to enable design improvements in VEs and to enhance training effectiveness through feedback of physiological-based performance information. Currently, VE design is guided by subjective design models that involve multiple design iterations and focus ...

Large scale training exercises involve many trainees at various stages of their training maturity and at various levels of skill. Problems arise in large scale exercises when less mature or lower skilled trainees are exposed to training scenarios that are too advanced or too complex for their level of training maturity. These trainees are more likely to fail the mission they are given in the train ...

This proposal describes the proposed implementation of the concept of the Quality of Training Effectiveness Assessment (QTEA) system. This concept was developed in Phase I (N074-028-0065). Currently, VE design is guided by subjective design models that involve multiple design iterations and focus on trial and error. Our approach is innovative and new because it quantifies VE fidelity requirements ...