Statistical Challenges in the Quantification of Gunshot Residue Evidence |
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| Authors: | Romain Gauriot M.Sc. Lawrence Gunaratnam M.Sc. Rossana Moroni Ph.D. Tapani Reinikainen Ph.D. Jukka Corander Ph.D. |
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| Affiliation: | 1. Department of Mathematics and Statistics, University of Helsinki, FI‐00014 Helsinki, Finland;2. National Bureau of Investigation Forensic Laboratory, Jokiniemenkuja 4, FI‐01370 Vantaa, Finland;3. Department of Mathematics, ?bo Akademi University, F?nriksgatan 3B, FI‐20500 Turku, Finland;4. Supported by the Academy of Finland grants 121301 and 251170 to JC.;5. Additional information and reprint requests:;6. Jukka Corander, Ph.D.;7. Department of Mathematics and Statistics;8. University of Helsinki;9. P.O. Box 68;10. 00014 Helsinki;11. Finland;12. E‐mail: jukka.corander@helsinki.fi |
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| Abstract: | The discharging of a gun results in the formation of extremely small particles known as gunshot residues (GSR). These may be deposited on the skin and clothing of the shooter, on other persons present, and on nearby items or surfaces. Several factors and their complex interactions affect the number of detectable GSR particles, which can deeply influence the conclusions drawn from likelihood ratios or posterior probabilities for prosecution hypotheses of interest. We present Bayesian network models for casework examples and demonstrate that probabilistic quantification of GSR evidence can be very sensitive to the assumptions concerning the model structure, prior probabilities, and the likelihood components. This finding has considerable implications for the use of statistical quantification of GSR evidence in the legal process. |
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| Keywords: | forensic science Bayesian networks gunshot residue statistical quantification of evidence contamination model uncertainty |
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