Award Data

The proposed Phase II STTR project is a joint effort between Heat, Light and Sound Research Inc (HLS Research), Arizona State University (ASU), and BAE Systems, titled Acoustic Communications Modem Using Multiple Input, Multiple Output (MIMO) Technology. The Phase I contract (N00014-05-M-0224) was awarded HLS Research and ASU under STTR Topic N05-T022, titled Underwater Acoustic Communications. Th ...

Filamentation of ultra-short laser pulse propagation in non-linear media offers significant potentials allowing to address numerous problems in military and commercial sectors. However, practical implementation of this requires an ability to control the USLP at its propagation through inhomogeneous media, like turbulent atmosphere. On the basis of our approach for combating turbulence effects on p ...

The problem is to improve airborne maritime radar detection of small moving targets in clutter, where the clutter varies with time, range, azimuth, sea state, grazing angle, wind speed, and the look direction of the radar relative to the wind direction. A new version of space-time adaptive processing (STAP) is applied to the problem. The new technique provides improved covariance estimation for ...

The Department of the Navy has a need for the development of an additive manufacturing (AM) process for key vacuum electronic device components to meet on-demand, flexible, and affordable manufacturing requirements. The goal of this Phase II effort is to develop and validate Electron Beam Melting (EBM) additive manufacturing (AM) technology for the production of vacuum electronic devices meeting t ...

During the NAVY STTR Phase II Calnetix will further develop its concept of advanced flywheel system proposed in Phase I and will demonstrate the validity of the underlying principles through building and testing a system prototype. This prototype will be a fully functional system capable of supporting up to 2MW of pulse power with the ability of producing 500kW (30 seconds) loads in high-duty-cyc ...

Hypersonic weapons are being developed to meet the war fighter's requirements of increased weapon effectiveness, decreased time to target, and increased fly out range. Of importance to hypersonic missiles and projectiles, aerothermic heating caused by the friction of air passing the weapon body, is one area of intensive research. At Mach 4, as the hypersonic weapon passes through the lower atmos ...

SA Photonics has developed a concept for our Multiple Optical Beam Landing System (MOBLS) to provide autonomous landing of aircraft in RF denied environments. MOBLS utilizes multiple, redundant methods to determine the real-time location and bearing of the aircraft relative to the carrier-based landing strip. By having built in redundant modalities, MOBLS provides highly reliable landing informati ...

Photonic links and networks offer numerous advantages to analog RF systems, and enable advanced performance in Naval aircraft analog RF systems: spurious-free dynamic range (SFDR) exceeding 125 dB/Hz^2/3 with instantaneous bandwidth up to and exceeding 1GHz for operational frequencies from 0.1 to 20 GHz. IPITEK proposes a novel single sideband suppressed-carrier (SSB-SC) technique that offers a ...

The Automatic Radio Frequency (RF) Measurement Module (ARMM) supports Specific Emitter Identification/Specific Emitter Verification (SEI/SEV) by providing detailed measurements against collected communication signals. ARMM is an integrated set of digital signal processing (DSP) algorithms that extracts and reports key features against collected signals. A feature analysis capability can then det ...

This STTR Phase II proposal continues our work towards building a simple, high quality and unobtrusive mobile physiological sensor platform. The capabilities of the Phase I prototype will be expanded by adding sensors to further acquire SpO2 and respiration in addition to forming a body area network for data collection across multiple points on a subjects body. A software infrastructure will also ...