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16 September 2003 Mining vibrometry signatures to determine target separability
Mark R. Stevens, Daniel W. Stouch, Magnus Snorrason, Frederick Heitkamp
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Proceedings Volume 5094, Automatic Target Recognition XIII; (2003) https://doi.org/10.1117/12.485709
Event: AeroSense 2003, 2003, Orlando, Florida, United States
Abstract
Laser vibrometry sensors measure minute surface motion colinear with the sensor's line-of-sight. If the vibrometry sensor has a high enough sampling rate, an accurate estimate of the surface vibration is measured. For vehicles with running engines, an automatic target recognition algorithm can use these measurements to produce identification estimates. The level of identification possible is a function of the distinctness of the vibration signature. This signature is dependent upon many factors, such as engine type and vehicle weight. In this paper, we present results of using data mining techniques to assess the identification potential of vibrometry data. Our technique starts with unlabeled vibrometry measurements taken from a variety of vehicles. Then an unsupervised clustering algorithm is run on features extracted from this data. The final step is to analyze the produced cluters and determine if physical vehicle characteristics can be mapped onto the clusters.
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Mark R. Stevens, Daniel W. Stouch, Magnus Snorrason, and Frederick Heitkamp "Mining vibrometry signatures to determine target separability", Proc. SPIE 5094, Automatic Target Recognition XIII, (16 September 2003); https://doi.org/10.1117/12.485709
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Cited by 6 scholarly publications.
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KEYWORDS
Vibrometry
Feature extraction
Sensors
Automatic target recognition
Detection and tracking algorithms
Signal processing
Algorithm development
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