Computer-aided fiber analysis for crime scene forensics

Mario Hildebrandt; Christian Arndt; Andrey Makrushin; Jana Dittmann

doi:10.1117/12.909852

10 February 2012 Computer-aided fiber analysis for crime scene forensics

Mario Hildebrandt, Christian Arndt, Andrey Makrushin, Jana Dittmann

Proceedings Volume 8296, Computational Imaging X; 829608 (2012) https://doi.org/10.1117/12.909852
Event: IS&T/SPIE Electronic Imaging, 2012, Burlingame, California, United States

Abstract

The forensic analysis of fibers is currently completely manual and therefore time consuming. The automation of analysis steps can significantly support forensic experts and reduce the time, required for the investigation. Moreover, a subjective expert belief is extended by objective machine estimation. This work proposes the pattern recognition pipeline containing the digital acquisition of a fiber media, the pre-processing for fiber segmentation, and the extraction of the distinctive characteristics of fibers. Currently, basic geometrical features like width, height, area of optically dominant fibers are investigated. In order to support the automatic classification of fibers, supervised machine learning algorithms are evaluated. The experimental setup includes a car seat and two pieces clothing of a different fabric. As preliminary work, acrylic as synthetic and sheep wool as natural fiber are chosen to be classified. While sitting on the seat, a test person leaves textile fibers. The test aims at automatic distinguishing of clothes through the fiber traces gained from the seat with the help of adhesive tape. The digitalization of fiber samples is provided by a contactless chromatic white light sensor. First test results showed, that two optically very different fibers can be properly assigned to their corresponding fiber type. The best classifier achieves an accuracy of 75 percent correctly classified samples for our suggested features.

Citation Download Citation

Mario Hildebrandt, Christian Arndt, Andrey Makrushin, and Jana Dittmann "Computer-aided fiber analysis for crime scene forensics", Proc. SPIE 8296, Computational Imaging X, 829608 (10 February 2012); https://doi.org/10.1117/12.909852

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