Joint DNA-based disaster victim identification

We address computational and statistical aspects of DNA-based identification of victims in the aftermath of disasters. Current methods and software for such identification typically consider each victim individually, leading to suboptimal power of identification and potential inconsistencies in the statistical summary of the evidence. We resolve these problems by performing joint identification of all victims, using the complete genetic data set. Individual identification probabilities, conditional on all available information, are derived from the joint solution in the form of posterior pairing probabilities. A closed formula is obtained for the a priori number of possible joint solutions to a given DVI problem. This number increases quickly with the number of victims and missing persons, posing computational challenges for brute force approaches. We address this complexity with a preparatory sequential step aiming to reduce the search space. The examples show that realistic cases are handled efficiently. User-friendly implementations of all methods are provided in the R package dvir, freely available on all platforms.

Automated summary

This study focuses on computational and statistical aspects of DNA-based victim identification after disasters. By jointly identifying all victims using complete genetic data, the issues of suboptimal individual identification and inconsistencies in statistical summaries are addressed. The method of deriving individual identification probabilities from joint solutions improves efficiency and handles realistic cases effectively.