Radio-hydro-physics LLC

Route 4, Box 66
Fairmont, WV 26554
http://[email protected]
15 Employees

SBIR Award Summary

Total Number of Awards 11
Total Value of Awards $5.58MM
First Award Date 05/11/05
Most Recent Award Date 05/10/12

Key Personnel

Last Name Name Awards Contact
Smirnov Dr. Andre Smirnov 4 Message
Tatarskii Viatcheslav V. Tatarskii 2 Message
Rekenthaler Douglas A. Rekenthaler 5 Message
Tatarskii Dr. V. V. Tatarskii 2 Message
Currie Dr. Douglas G. Currie 2 Message
Tatarskii Vyacheslav V. Tatarskii 1 Message

11 Awards Won

Phase 1 STTR

Institution: Georgia Tech Research Corp.

Agency: Air Force
Topic: AF11-BT41
Budget: 05/10/12 - 02/07/13

ABSTRACT: This Phase I SBIR will produce a concept, and algorithms, for a Sensor Suite which can be used as a research tool to characterize strong atmospheric turbulence. Previous and on-going theories, statistics, and empirical data will be evaluated to arrive at an optimal Sensor design concept. That Sensor may exploit the superior resoluti...

Phase 2 SBIR

Agency: Navy
Topic: N05-006
Budget: 11/19/10 - 11/19/12

Proof of principle concerning certain new concepts for discrimination of signatures of interest to the US Navy. Exploitation of airborne sensors for detection of dynamic geometric surface changes, and electro-magnetic field effects.

Phase 2 STTR

Institution: Georgia Tech Research Corp.

Agency: Navy
Topic: N09-T002
Budget: 08/16/10 - 02/16/12

This program will encompass two main thrusts: First, development of numerical methods for calculation of the scattering from random surfaces which does not use any approximate analytical solutions. This method is suitable for calculations of the radar back scattering for a wide range of grazing angles, including low grazing angles. Second, devel...

Phase 1 SBIR

Agency: Navy
Topic: N102-126
Budget: 08/10/10 - 02/10/11

Phase I development of concepts, signal processing techniques, and flight profiles for optimal discrimination of signature from objects of interest, comprising both theory and design of field experiments with sensor and sensor platform. Projected Phase II will comprise demonstration of concepts and signal processing methodologies in situ, using ...

Phase 1 STTR

Institution: Georgia Tech Research Corp.

Agency: Navy
Topic: N09-T002
Budget: 07/16/09 - 02/16/10

Scattering models have been developed during previous efforts, improving understanding of radar and optical signatures which may be anticipated under varying conditions and viewing geometries. Those models are extended here to the domain of impulsive, nonlinear interactions between acoustics and hydrodynamics, with attention to E-M field influ...

Phase 2 SBIR

Agency: Defense Advanced Research Projects Agency
Topic: SB072-039
Budget: 03/17/09 - 03/31/11

Radio-Hydro-Physics LLC will design, fabricate, test and demonstrate a Sensor, based on Dispersed Fourier Transform Spectrometer (DFTS) technology, which will be light-weight, less than one-half cubic foot in size, without moving parts, with low power requirements, suitable for operation on a host satellite in prototype form, and capable of dete...

Phase 1 SBIR

Agency: Defense Advanced Research Projects Agency
Topic: SB072-039
Budget: 12/19/07 - 08/14/08

Design miniaturized sensor based on Dispersed Fourier Transform Spectrometer ("DFTS") technology to provide 3-space position and attitude determination between host and target satellites. The DFTS has demonstrated a capability to establish orbital accuracies in near-real-time at an accuracy of 0.5 meters in range as well as position against the ...

Phase 2 STTR

Institution: Georgia Tech Research Corp.

Agency: Navy
Topic: N05-T011
Budget: 07/18/06 - 01/18/08

This is continuation of a Phase I SBIR effort to model wind/wave ocean spectra using new mathematical and physics methodologies. The Meecham-Lysanov (ML) approximate kernel is used to solve the Stratton-Chu (SC) magnetic field integral equation for the interface between the air and a perfectly conducting sea.

Phase 2 SBIR

Agency: Navy
Topic: N05-006
Budget: 07/10/06 - 02/27/09

This program will continue the development, test, and evaluation of a new radar concept for a diverse spectrum of applications. Tank, Lake, and other field tests will be conducted using laboratory, shore, and airborne settings to determine optimal operational and technological parameters of the radar. Based on lessons learned in early tests,...

Phase 1 STTR

Institution: Georgia Institute of Technology

Agency: Navy
Topic: N05-T011
Budget: 08/01/05 - 05/31/06

Develop physics-based theory and computer-based model characterizing recent advances in surface wind/wave response to ambient and perturbed surface structures.

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