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Affordable Scalable Acoustic Panel Arrays
Navy SBIR FY2012.1
| Sol No.: |
Navy SBIR FY2012.1 |
| Topic No.: |
N121-055 |
| Topic Title: |
Affordable Scalable Acoustic Panel Arrays |
| Proposal No.: |
N121-055-0061 |
| Firm: |
ASSETT, Incorporated
11220 ASSETT Loop
Suite 101
Manassas, Virginia 20109-3993 |
| Contact: |
Bob McCaig |
| Phone: |
(703) 365-8940 |
| Web Site: |
www.assett.net |
| Abstract: |
Sonar performance is highly dependent on the performance and positional accuracy of its acoustic sensors. Today's arrays are populated with sensors built to strict tolerances to minimize channel to channel differences and precision mounted to enable the exact location, speed, direction of motion, and classification of a contact. Knowing the precise location of each sensor and its performance characteristics is key to sonar performance. The lack of precision or performance within a tolerance range can result in vessels being dry docked in order to manually recalibrate the array of sensors. Once the platform is deployed, mechanical stress, hull dynamics, pressure loading variations, element electronics variability, and element failures all tend to degrade performance. Manual replacement, recalibration, and installation of array sensors due to failure or degradation involves significant cost. ASSETT teamed with NGUS provides a total system solution by addressing both the sensor technology and mounting requirements as well as the application of signal processing to allow for a wider tolerance in the sensor performance while maintaining or increasing system performance. The major elements of the technologies proposed by the ASSETT Team have been proven and implemented on other platforms resulting in a low risk effort for this SBIR. |
| Benefits: |
The anticipated results of the research conducted under this SBIR include:
1. Identification of new sensor materials that will reduce cost
2. Recommendations for mounting of panel arrays and other array geometries including spherical arrays that will reduce installation costs
3. Recommended reduction in sensor and mounting tolerance requirements that result from corrections made possible through signal processing
4. Estimates of cost reduction
These benefits will lay the foundation for reducing one of the major cost drivers for future submarine platforms.
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