Inconclusives and error rates in forensic science: A signal detection theory approach

Hal R. Arkes; Jonathan J. Koehler

doi:10.1093/lpr/mgac005

Inconclusives and error rates in forensic science: A signal detection theory approach

Hal R. Arkes, Jonathan J. Koehler^*

^*Corresponding author for this work

Pritzker School of Law

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

There are times when a forensic scientist may not be comfortable drawing a firm conclusion about whether a questioned sample that appears to contain useful identifying information did or did not come from a particular known source. In such cases, the forensic scientist may call the sample pair 'inconclusive'. We suggest that signal detection theory (SDT), which is concerned with the detection of weak signals in noisy environments, provides a useful framework for understanding the role that inconclusives play in the various feature-matching forensic sciences. SDT shows that 'inconclusive' is often an appropriate response depending on both the strength of the signal in the samples and the thresholds adopted by the examiner. We also argue that inconclusives should not be coded as either correct or incorrect when tabulating forensic error rates.

Original language	English (US)
Pages (from-to)	153-168
Number of pages	16
Journal	Law, Probability and Risk
Volume	20
Issue number	3
DOIs	https://doi.org/10.1093/lpr/mgac005
State	Published - Sep 1 2021

Keywords

error rates
forensic science
inconclusive
signal detection theory

ASJC Scopus subject areas

Philosophy
Statistics, Probability and Uncertainty
Law

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10.1093/lpr/mgac005

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AB - There are times when a forensic scientist may not be comfortable drawing a firm conclusion about whether a questioned sample that appears to contain useful identifying information did or did not come from a particular known source. In such cases, the forensic scientist may call the sample pair 'inconclusive'. We suggest that signal detection theory (SDT), which is concerned with the detection of weak signals in noisy environments, provides a useful framework for understanding the role that inconclusives play in the various feature-matching forensic sciences. SDT shows that 'inconclusive' is often an appropriate response depending on both the strength of the signal in the samples and the thresholds adopted by the examiner. We also argue that inconclusives should not be coded as either correct or incorrect when tabulating forensic error rates.

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Inconclusives and error rates in forensic science: A signal detection theory approach

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Keywords

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