二维统计矩不变性特征在制定自动概率机器学习识别算法中的比较

IF 0.8 Q3 MULTIDISCIPLINARY SCIENCES
Z. L. Chuan, David Chong Teak Wei, Connie Lee Wai Yan, Muhammad Fuad Ahmad Nasser, Nor Azura Md. Ghani, A. Jemain, C. Liong
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引用次数: 0

摘要

IBIS, ALIS, EVOFINDER和CONDOR是大型弹道计算机化技术机器,通常用于法医实验室自动定位弹壳和子弹图像之间的相似性。然而,当使用这些市场上可用的技术来完成弹道匹配任务时,它强加了很长的执行时间,并且需要物理解释来巩固分析结果。因此,本研究的主要目标是提出一种简易的自动概率机器学习识别算法,该算法通过从对应于弹壳和子弹图像的分割感兴趣区域(ROI)中提取二维(2D)统计矩不变量。为了实现这一主要目标,已经比较和测试了几个二维统计矩不变量,以确定在所提出的识别算法中应用的最合适的特征集。采用的二维统计矩不变量包括正交Legendre矩(OLM)、Hu矩(HM)、Tsirikolias-Mertzois矩(TMM)、Pan-Keane矩(PKM)和中心几何矩(CGM)。此外,所提出的识别算法还在不同的场景下进行了测试,包括基于所提取特征集之间强度关联测量的分类。本文的实证结果表明,基于弱关联分类的CGM识别算法的识别准确率最高,在训练集的所有样本量上均>96.5%。这些实证结果也表明,本研究提出的优越识别算法可以开发为弹道识别的移动应用程序,可以显着减少耗时并方便地执行弹道识别任务。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Comparative of Two-Dimensional Statistical Moment Invariants Features in Formulating an Automated Probabilistic Machine Learning Identification Algorithm for Forensic Application
IBIS, ALIS, EVOFINDER, and CONDOR are the massive ballistics computerised technological machines that have typically been utilised in forensic laboratories to automatically locate similarities between images of cartridge cases and bullets. However, it imposed a long execution time and requires physical interpretation to consolidate the analysis results when employing these market-available technologies to accomplish ballistics matching tasks. Therefore, the principal objective of this study is to propose an improvised automated probabilistic machine learning identification algorithm by extracting the two-dimensional (2D) statistical moment invariants from the segmented region of interest (ROI) corresponding to the cartridge case and bullets images. To pursue this principal objective, several 2D statistical moment invariants have been compared and tested to determine the most suitable feature set applied in the proposed identification algorithm. The 2D statistical moment invariants employed include Orthogonal Legendre moments (OLM), Hu moments (HM), Tsirikolias-Mertzois moments (TMM), Pan-Keane moments (PKM), and Central Geometric moments (CGM). Moreover, the proposed identification algorithm is also tested in different scenarios, including based on the classification of strength association measurements between the extracted feature sets. The empirical results in this article revealed that the proposed identification algorithm applied with the CGM comprising the weak association classification yielded the best identification accuracy rates, which are >96.5% across all the sample sizes of the training set. These empirical results also conveyed that the superior proposed identification algorithm in this research could be developed as a mobile application for ballistics identification that can significantly reduce the time taken and conveniently perform the ballistics identification tasks.
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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
45
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