SBIR-STTR Award

Seaborne powered targets are currently remotely controlled via line of sight radio frequency systems. It is desired to remove this line of sight limitation. The proposed solution will utilize a target borne loran c navigator to establish location and autonomously control the target between waypoints inserted into the navigation. Location data will be communicated to a control station, for monitoring purposes and control signals, i.e., To shut down the target, relayed back to the target via a satellite based communication system. The proposed Phase I program has both demonstration and study parts. In the demonstration a target will be remotely controlled as noted above. This demonstration will be based on the recently (1989) introduced use of satellite based Duplex mobile communication technology, and associated hardware, for commercial Purposes (truck location and dispatch). Because of the potential, very significant impact Of the above demonstration to wide scale range use, an associated part of this phase I Effort will provide a first cost estimate of additional range use of the concept/hardware.

The Phase I SBIR effort demonstrated GPS based autonomous waypoint navigation of an Unmanned Surface Vehicle (USV) used as a target in live firing exercises. Waypoints were inserted via an Over The Horizon (OTH) satellite based communication link. Another endeavor indicates that a USV can also serve as a tactical target to divert incoming missiles, i.e., act as a decoy. All these target functions would benefit from the use of a common, ship deployable USV, configured as discussed herein. This Phase II effort will provide a retrofa kit to configure existing Target USVs with an autonomous navigational capability. This retrofit kit, with minor additions, can also convert the workboat currently deployed on modern American/Canadian warships into a USV suitable for tactical, at sea training, and live firing exercises.