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Bayesian Networks for Evaluating Forensic DNA Profiling Evidence: A Review and Guide to Literature

NCJ Number
240615
Journal
Forensic Science International: Genetics Volume: 6 Issue: 2 Dated: March 2012 Pages: 147-157
Author(s)
A. Biedermann; F. Taroni
Date Published
March 2012
Length
11 pages
Annotation
This review article provides an overview of the scientific literature that describes research on Bayesian networks as a tool that can be used to study, develop and implement probabilistic procedures for evaluating the probative value of particular items of scientific evidence in forensic science.
Abstract
Almost 30 years ago, Bayesian networks (BNs) were developed in the field of artificial intelligence as a framework that should assist researchers and practitioners in applying the theory of probability to inference problems of more substantive size and, thus, to more realistic and practical problems. Since the late 1980s, Bayesian networks have also attracted researchers in forensic science and this tendency has considerably intensified throughout the last decade. The current article's literature review gives primary attention to evaluative issues that pertain to forensic DNA profiling evidence because this is one of the main categories of evidence whose assessment has been studied through Bayesian networks. The scope of topics is large and includes almost any aspect that relates to forensic DNA profiling. Typical examples are inference of source (or, 'criminal identification'), relatedness testing, database searching and special trace evidence evaluation (such as mixed DNA stains or stains with low quantities of DNA). The perspective of the review presented here is not exclusively restricted to DNA evidence, but also includes relevant references and discussion on both the concept of Bayesian networks as well as its general usage in legal sciences as one among several different graphical approaches to evidence evaluation. (Published Abstract)