Monopole Research

739 Calle Sequoia
Thousand Oaks, CA 91360
5 Employees

SBIR Award Summary

Total Number of Awards 15
Total Value of Awards $5.08MM
First Award Date 05/20/94
Most Recent Award Date 08/09/10

Key Personnel

Last Name Name Awards Contact
Bleszynski Dr. Elizabeth Bleszynski 7 Message
Bleszynski Dr. Marek Bleszynski 5 Message
Jaroszewicz Dr. Thomas Jaroszewicz 3 Message
Bleszynski Mr. Peter Bleszynski 2 Message
Jaorszewica Thomas Jaorszewica 2

15 Awards Won

Phase 2 SBIR

Agency: Air Force
Topic: AF083-131
Budget: 08/09/10 - 11/09/12

We propose to develop a new autofocus method applicable to large-scene surveillance with circular SAR. Our work constitutes a continuation, full implementation, and extensions of the new autofocus algorithm we developed and successfully tested during Phase I. The proposed method is applicable to large apertures and corrects effects of fine-s...

Phase 1 SBIR

Agency: Air Force
Topic: AF083-131
Budget: 01/16/09 - 10/30/09

The objective of this research is to develop a target-recognition approach which is robust in challenging conditions that include long stand-off distances, low-visibility environments, and non-cooperative targets. The key element is an effective use of data from continuous surveillance, that is, redundant data that can in principle be used to im...

Phase 2 STTR

Institution: University of Texas at Dallas

Agency: Air Force
Topic: AF06-T035
Budget: 10/09/07 - 10/09/09

We propose to develop high fidelity software tools which would allow identification and understanding of the relevant bioacoustic and psychacoustic mechanisms responsible for the transition of acoustic energy through non-airborne pathways to the cochlea and significantly reduce the cost of design of noise suppression devices. The principal nu...

Phase 1 STTR

Institution: University of Texas at Austin

Agency: Air Force
Topic: AF06-T035
Budget: 08/01/06 - 05/01/07

We propose to develop high-fidelity numerical simulation tools to be used in the analysis and assessment of bone conduction of sound in the human head and the desigh of noise protection devices. The proposed approach utilizes boundary and volumetric integral equation methods, and will constitute an extension of our currently developed approach...

Phase 1 STTR

Institution: Yale University

Agency: Air Force
Topic: AF05-T018
Budget: 08/01/05 - 05/01/06

The objective of this proposal is to make a significant advancement in the development of software for the prediction of radiation patterns of antennas mounted on large platforms. The proposed approach will combine fast rigorous and asymptotic solution methods with a suitably constructed direct and iterative solvers. The proposed scheme will s...

Phase 1 SBIR

Agency: Air Force
Topic: AF05-220
Budget: 03/18/05 - 12/18/05

We intend to develop an efficient solution scheme applicable to numerical modeling of objects in large complex environments, which would provide an adequate accuracy at a cost significantly lower than rigorous solution methods based on state-of-the-art matrix compression methods (multilevel Fast Multipole Method (FMM) or Adaptive Integral Method...

Phase 2 STTR

Institution: The Ohio State University

Agency: Air Force
Topic: AF01-009
Budget: 04/23/03 - 04/23/04

Our overall objective is to develop a high frequency algorithm capable of simulating the full spectrum of electromagetic scattering and propagation problems including multiple reflections and diffraction phenomena such as diffraction on smooth surfaces, edge diffraction, and multiple diffraction effects. Our approach will utilize the wavefront e...

Phase 2 SBIR

Agency: Army
Topic: A01-028
Budget: 04/14/03 - 04/14/05

We propose to develop a new algorithm for fast and accurate numerical simulation of radar signatures of realistic tanks and other military targets at high frequecies. The underlying solver approach will combine state-of the art impedance matrix compression techniques(FMM and FFT based)and a modern asymptotic and rigorous high frequency inte...

Phase 2 SBIR

Agency: Air Force
Topic: AF02-232
Budget: 03/03/03 - 02/28/05

A systematic and rigorous algorithm for numerical simulation of electromagnetic signatures of airbone platforms will be developed. The main goal of the proposed methodology is to significantly (by an order of magnitude) improve the performance of the existing rigorous fast integral equation solvers for numerical simulation of realistic large sc...

Phase 1 SBIR

Agency: Air Force
Topic: AF02-232
Budget: 05/24/02 - 03/23/03

We propose to develop a systematic and, at the same time, rigorous and efficient computational scheme for solving high frequency electromagnetic scattering, propagation and imaging problems. The main building blocks of the approach are: 1. A novel high frequency technique based on wavefront evolution method (as opposed to ray tracing). 2. Fast, ...

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