Validation of likelihood ratio methods for forensic evidence evaluation handling multimodal score distributions
Entidad
UAM. Departamento de Tecnología Electrónica y de las ComunicacionesEditor
The Institution of Engineering and TechnologyFecha de edición
2017-03Cita
10.1049/iet-bmt.2015.0059
IET Biometrics 2.6 (2017): 61-69
ISSN
2047-4938 (print); 2047-4946 (online)DOI
10.1049/iet-bmt.2015.0059Financiado por
The research was conducted in scope of the BBfor2 – Marie Curie Initial Training Network (FP7-PEOPLE-ITN-2008 under the Grant Agreement 238803) at the Netherlands Forensic Institute in cooperation with the ATVS Biometric Recognition Group at the Universidad Autonoma de Madrid and the National Police Services Agency of the NetherlandsProyecto
info:eu-repo/grantAgreement/EC/FP7/238803Materias
Validation; Multimodal Score Distribution; Calibration; AFIS; Forensic Evaluation; Fingermark; Likelihood Ratio; Robustness; Reproducibility; Accuracy; TelecomunicacionesNota
This paper is a postprint of a paper submitted to and accepted for publication in IET Biometrics and is subject to Institution of Engineering and Technology Copyright. The copy of record is available at IET Digital LibraryDerechos
© The Institution of Engineering and TechnologyResumen
This article presents a method for computing Likelihood Ratios (LR) from multimodal score distributions produced by an Automated Fingerprint Identification System (AFIS) feature extraction and comparison algorithm. The AFIS algorithm used to compare fingermarks and fingerprints was primarily developed for forensic investigation rather than for forensic evaluation. The computation of the scores is speed-optimized and performed on three different stages, each of which outputs discriminating scores of different magnitudes
together forming a multimodal score distribution. It is worthy mentioning that each fingermark to fingerprint comparison performed by the AFIS algorithm results in one single similarity
score (e.g. one score per comparison). The multimodal nature of the similarity scores can be typical for other biometric systems and the method proposed in this work can be applied in similar cases, where the multimodal nature in similarity scores is observed. In this work we address some of the problems related to modelling such distributions and propose solutions to issues like data sparsity, dataset shift and over-fitting. The issues mentioned affect the methods traditionally used in the situation when a multimodal nature in the similarity scores is observed (a Kernel Density Functions (KDF) was used to illustrate these issues in our case). Furthermore, the method proposed produces interpretable results in the situations when the similarity scores are sparse and traditional approaches lead to erroneous LRs of huge magnitudes
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Google Scholar:Harakasim, Rudolf
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Ramos Castro, Daniel
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Meuwly, Didier
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