Electronically-scanned laser-based periscope detection system
Navy SBIR FY2018.1
Sol No.: |
Navy SBIR FY2018.1 |
Topic No.: |
N181-022 |
Topic Title: |
Electronically-scanned laser-based periscope detection system |
Proposal No.: |
N181-022-0986 |
Firm: |
Beam Engineering for Advanced Measurements Company 1300 Lee Rd.
Orlando, Florida 32810 |
Contact: |
Anna Tabirian |
Phone: |
(407) 734-5222 |
Web Site: |
http://www.beamco.com |
Abstract: |
Whether a laser-based system is used to autonomously detect and recognize a periscope, or the laser-based system is used as a complement to a radar-based periscope detection system, the timeliness of the laser-based detection is critical. Electronically steering the pointing direction of the laser and the field of view of the laser receiver enables a timely response by the laser-based system to any breaching of the sea surface by a periscope. The emerging technology of diffractive waveplates enables electronic beam steering for narrowband systems such as lasers and active imagers along with electronic control of illumination spot size. In conjunction with a high-efficiency, short pulse laser illuminator and high sensitivity laser receiver, we propose an electronic beam and field of view steering system that can address any location in the field of regard within a response time that is orders of magnitude shorter than the time it would take to slew a conventional gimbal system over a comparable angle. In addition to enabling rapid response and high resolution detection, electronic beam and field of view steering is expected to have a major favorable impact on system size, weight, and power consumption. |
Benefits: |
The electronic beam steering technology to be advanced under this program has many other potential applications in addition to periscope detection. Among these additional applications are both military and commercial laser beam steering and field of view steering. Among the military applications are stabilization of laser rangefinder, designator, and directed energy beams, and laser receiver fields of view. Among the non-military applications is angular stabilization of free-space optical communications beams and receiver fields of view. |
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