Enhancing Situational Awareness to Counter Swarming and Other Nonlinear, Dispersed Tactics Against Naval Surface Forces

Enhancing Situational Awareness to Counter Swarming and Other Nonlinear, Dispersed Tactics Against Naval Surface Forces
Navy SBIR FY2012.2

Sol No.:	Navy SBIR FY2012.2
Topic No.:	N122-117
Topic Title:	Enhancing Situational Awareness to Counter Swarming and Other Nonlinear, Dispersed Tactics Against Naval Surface Forces
Proposal No.:	N122-117-0805
Firm:	Toyon Research Corp. 6800 Cortona Drive Goleta, California 93117-3021
Contact:	Robert Wilkerson
Phone:	(805) 968-6787
Web Site:	www.toyon.com
Abstract:	Toyon proposes to research and develop algorithms and software that provide enhanced situational awareness to watchstanders of naval vessels. These algorithms will employ advanced data fusion and pattern recognition technologies with the primary objective of identification and early warning of hostile swarming or other nonlinear, dispersed tactics in a 360-degree field-of-regard around the vessel. Fusion algorithms will provide persistent feature-aided tracking, target classification, and target fingerprinting to monitor and characterize each surface vessel in the surveillance region. This set of tracks will supply the data from which group behavioral features will be extracted for subsets of tracks hypothesized to form a coordinated "swarm group". These features will then feed a threat detection algorithm that will detect abnormal behaviors that are observed, such as coordinated actions by a group of targets. In Phase I, Toyon will perform a feasibility study of the proposed solution by developing and extending component data fusion algorithms, designing the group behavioral feature models, and evaluating anomaly detection performance to meet the specified technical objectives of the project.
Benefits:	The successful completion of this research will result in prototype algorithms and software that will improve situational awareness by providing watchstanders early warning of swarm threats against naval surface ships. Toyon envisions that the primary application of this technology will be as a software enhancement for existing command and control (C2) systems for Naval surface ships and other military assets operating in dense target environments.

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