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Low-Cost Hit-to-Kill Munitions for Anti-Mortar, Anti-Rocket, Anti-Missile Capability
Navy SBIR FY2004.2 - Quick Response Topics
| Sol No.: |
Navy SBIR FY2004.2 |
| Topic No.: |
N04-903 |
| Topic Title: |
Low-Cost Hit-to-Kill Munitions for Anti-Mortar, Anti-Rocket, Anti-Missile Capability |
| Proposal No.: |
N042-903-0602 |
| Firm: |
Tanner Research, Inc.
2650 East Foothill Boulevard
Pasadena, California 91107 |
| Contact: |
Michael Emerling |
| Phone: |
(626) 792-3000 |
| Web Site: |
www.tanner.com |
| Abstract: |
Tanner Research proposes to modify an existing missile or munition, embedding an autonomous hit-to-kill intercept capability, to develop near-term a counter-munition to defeat incoming low-cost ballistic threats like mortar, rocket and missile attacks. The significant technical challenge is to develop both low-cost detect and intercept guidance, and hit-to-kill maneuverability in an autonomous kinetic energy format.
Tanner Research, working with Raytheon Missile Systems, will adapt an existing imaging sensor used to detect `coming-at-you' threats, for use as a micro-scale seeker system in a hit-to-kill application. The guidance and control (G&C) commands will be inferred from an existing moving point target detection and sensor-processing (SP) algorithm, and used to implement hit-to-kill maneuverability using existing micro thrusters or gas-actuated canard fins. Enhanced lethality on impact can be gained by using a reactive material airframe.
Tanner's objective is to adapt component technologies that will integrate generically with any of several Navy munition platforms, including: ground-launched 2.75-inch rocket as a variant of the air-launched LOGIR; or, the shoulder-launched imaging sensor munition. Both are being developed at China Lake.
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| Benefits: |
Detecting `coming-at-you' threats using an imaging sensor is breakthrough technology. The underlying dim target detection and SP algorithm has even more functionality for use in a low-cost imaging seeker mounted on a missile since G&C commands can be derived from the target to actuate the maneuver control system. The sensor/seeker, algorithm, processor and thrusters all currently exist in hardware and software at Tanner Research. Tanner proposes to work with Raytheon Missile Systems to apply technology insertion to a suitable munitions-type airframe residing at NAWCWD for near-term implementation. |
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