Maritime Domain Awareness (MDA) requires the ability to accurately identify, track, and understand the rationale of the behavior of vessels given the surrounding contextual environment. Reasoning about such behaviors can ultimately lead to a better understanding of whether the behaviors are normal or anomalous. In order to adequately improve the quality and overall confidence of the output of the reasoning process that leads to the conclusions regarding the nature of vessel behaviors, a system must be provided with sufficient, high quality, track data from which such conclusions could be made. The nature of maritime data, particularly in specific environments, and the fact that Intelligence, Surveillance and Reconnaissance (ISR) assets in future network- centric systems are likely to be heavily requested due to the complexity and number of non-traditional missions, necessitates that these resources be effectively utilized across the mission space in order to maximize overall collection and hence derive good quality tracks for actionable tasking of limited resources. This paper will describe the development of ISR allocation optimization algorithms for the maritime domain, leveraging modeling and simulation capabilities from the Interactive Scenario Builder (ISB) decision support tool. The ISB is a 3D tactical decision aid and mission planning system that provides insight into, and visualization of, the RF environment. The ISB is used in the Joint Information Operations Command and in Navy IO Centers (Hawaii, Georgia, Norfolk, San Diego, and Whidbey Island). The optimization algorithms being developed within the ISB take into consideration 'areas of interest' such as high interest vessel movements, shipping lanes, fishing areas, military exercises, ports of particular interest, area of high piracy, cargo, or past shipping incidents.
Optimization of ISR Platforms for Improved Collection in Maritime Environments
2009
12 pages
Report
Keine Angabe
Englisch
Algebra, Analysis, Geometry, & Mathematical Logic , Computer Software , Military Intelligence , Antisubmarine Warfare , Algorithms , Computer programs , Decision support systems , Military intelligence , Ocean environments , Computerized simulation , Confidence level , Data acquisition , Electronic warfare , Naval vessels , Optimization , Reconnaissance , Scenarios , Signal to noise ratio , Surveillance , Mda(Maritime domain awareness) , Isr(Intelligence surveillance and reconnaissance) , Platform optimization algorithms , Isb(Interactive scenario builder) , Ais(Automated identification systems) , Snr(Signal-to-noise ratio) , Sensor allocation tool architecture , Ewsim(Electronic warfare simulation)
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