Interdisciplinary Consulting Corp.

5042 NW 57th Terrace
Gainesville, FL 32653
http://www.iconsultcorp.com
4 Employees

SBIR Award Summary

Total Number of Awards 5
Total Value of Awards $1.15MM
First Award Date 08/15/02
Most Recent Award Date 10/24/12

Key Personnel

Last Name Name Awards Contact
Cattafesta Dr. Louis Cattafesta 3 Message
Sheplak Dr. Mark Sheplak 3 Message
Chen Tai Chen 1 Message

5 Awards Won

Phase 1 SBIR

Agency: Army
Topic: A12-086
Budget: 10/24/12 - 04/24/13
PI: Tai Chen

The conventional approaches to acoustic arrays limit their usage in acoustic reconnaissance for Army applications due to large size and rigid packaging. An acoustic array on a flexible substrate and composed of microfabricated sensors provides a solution for applications where limited size and non-planar surfaces have prevented use of array-base...

Phase 2 STTR

Institution: University of Florida

Agency: Air Force
Topic: AF07-T014
Budget: 12/04/08 - 12/04/10

The goal of the proposed project is to develop a robust, high-bandwidth, micromachined Moiré optical-based shear stress sensor and fiber optic lever pressure sensor in a single package with a remote photo-diode/fiber-optic array optical readout for high-temperature, unsteady high-speed flow measurement applications. The time-accurate, continuou...

Phase 1 STTR

Institution: University of Florida

Agency: Air Force
Topic: AF07-T014
Budget: 09/26/07 - 09/26/08

The goal of the proposed project is to develop a robust, high-bandwidth, micromachined Moiré optical-based shear stress sensor with a remote photo-diode/fiber-optic array optical readout for high-temperature, unsteady high-speed flow measurement applications. The time-accurate, continuous, direct measurement of fluctuating wall shear stress is...

Phase 1 STTR

Institution: University of Florida

Agency: Air Force
Topic: AF03T013
Budget: 09/25/03 - 09/25/04

The ultimate goal of the proposed project is to develop and implement a robust, high-bandwidth, high-resolution, silicon micromachined piezoresistive floating element shear-stress sensor possessing through-wafer backside electrical contacts for the measurement of unsteady hypersonic flow phenomena. The measurement of wall shear stress is criti...

Phase 1 STTR

Institution: University of Florida

Agency: Air Force
Topic: AF02T012
Budget: 08/15/02 - 08/15/03

The goal of the proposed project is to develop and demonstrate an integrated flow control system to reduce aero-optic distortions via control of large-scale shear layer structures and manipulation of the turbulence spectrum in a compressible shear flow. Density fluctuations in a compressible shear layer can produce time-varying index of refract...