20 May 2006 Developing a robust integrated learning system for the modern battlefield
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This paper outlines our long-term vision for integrating robust machine learning as an approach to the modern battlefield. We will develop the architecture for an Integrated Learning System (ILS) that will enable representation tools to maximize the utility of data collected by distributed sensors. This project will suggest a system for data capture, processing, retrieval and analysis and focus on the development of semantic interoperability for ontology alignment and the ability to learn from experiences, so that performance improves as it accumulates knowledge resulting in the ability to learn new object/event classes and improve its classification accuracy. To illustrate the notion of robust learning from distinct representations of sensor data from a common source, we offer an application where a LCS addresses automatic target recognition (ATR) in extended operating conditions (EOCs). The LCS-based robust ATR system performed well, resulting in powerful ATR rules that generalize over multiple feature types, with accuracy over 99% and robustness over 80%. To illustrate the notion of ontology enabling learning, we outline preliminary experiments with a network of LCSs integrating ATR via a simple vehicle ontology.
© (2006) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Robert E. Smith, Robert E. Smith, B. Ravichandran, B. Ravichandran, Avinash Gandhe, Avinash Gandhe, Kai Pak Chan, Kai Pak Chan, Raman Mehra, Raman Mehra, } "Developing a robust integrated learning system for the modern battlefield", Proc. SPIE 6228, Modeling and Simulation for Military Applications, 62280R (20 May 2006); doi: 10.1117/12.669002; https://doi.org/10.1117/12.669002


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