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Citation |
Wen Z, Curran JM, Harbison SA, Wevers GE. J. Forensic Sci. 2023; ePub(ePub): ePub. |
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Copyright |
(Copyright © 2023, American Society for Testing and Materials, Publisher John Wiley and Sons) |
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DOI |
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PMID |
37691406 |
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Abstract |
Crimes, such as robbery and murder, often involve firearms. In order to assist with the investigation into the crime, firearm examiners are asked to determine whether cartridge cases found at a crime scene had been fired from a suspect's firearm. This examination is based on a comparison of the marks left on the surfaces of cartridge cases. Firing pin impressions can be one of the most commonly used of these marks. In this study, a total of nine Ruger model 10/22 semiautomatic rifles were used. Fifty cartridges were fired from each rifle. The cartridge cases were collected, and each firing pin impression was then cast and photographed using a comparison microscope. In this paper, we will describe how one may use a computer vision algorithm, the Histogram of Orientated Gradient (HOG), and a machine learning method, Support Vector Machines (SVMs), to classify images of firing pin impressions. Our method achieved a reasonably high accuracy at 93%. This can be used to associate a firearm with a cartridge case recovered from a scene. We also compared our method with other feature extraction algorithms. The comparison results showed that the HOG-SVM method had the highest performance in this classification task. Language: en |
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Keywords |
computer vision; firing pin impression; histogram of orientated gradient; image classification; support vector machine |