用于鉴定法医昆虫学证据的贝叶斯网络。

M Gunnar Andersson, Anders Sundström, Anders Lindström
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引用次数: 5

摘要

在CBRN事件发生后,迫切需要重建事件,以便将肇事者绳之以法,并为未来采取预防措施。挑战在于如何根据现有信息区分不同的情景。司法解释使用贝叶斯假设检验的框架来评估司法调查结果在多大程度上有利于检察官或被告的论点。最近,一些新的科学学科被用于法医领域。在AniBioThreat项目中,该框架被应用于兽医法医病理学、病原微生物追踪和法医昆虫学。法医昆虫学是估计死后时间间隔的重要工具,例如,在凶杀案调查中,作为更传统方法的补充。在本文中,我们通过分析一个涉及秘密实验室尸体可疑移动的假设场景,展示了贝叶斯框架在法医调查中评估昆虫学证据的适用性。利用数据统计分析、专家知识和模拟相结合的方法估计了不同假设下不同发现的概率,并利用昆虫学发现更新了对检察官和被告假设的信念,并计算了证据的价值。事实证明,贝叶斯框架对于利用几种昆虫物种的发现来评估复杂的假设是有用的,它解释了发育速度、温度和预定的不确定性。讨论了法医统计方法在评估CBRN事件法医结果中的适用性。
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Bayesian networks for evaluation of evidence from forensic entomology.

In the aftermath of a CBRN incident, there is an urgent need to reconstruct events in order to bring the perpetrators to court and to take preventive actions for the future. The challenge is to discriminate, based on available information, between alternative scenarios. Forensic interpretation is used to evaluate to what extent results from the forensic investigation favor the prosecutors' or the defendants' arguments, using the framework of Bayesian hypothesis testing. Recently, several new scientific disciplines have been used in a forensic context. In the AniBioThreat project, the framework was applied to veterinary forensic pathology, tracing of pathogenic microorganisms, and forensic entomology. Forensic entomology is an important tool for estimating the postmortem interval in, for example, homicide investigations as a complement to more traditional methods. In this article we demonstrate the applicability of the Bayesian framework for evaluating entomological evidence in a forensic investigation through the analysis of a hypothetical scenario involving suspect movement of carcasses from a clandestine laboratory. Probabilities of different findings under the alternative hypotheses were estimated using a combination of statistical analysis of data, expert knowledge, and simulation, and entomological findings are used to update the beliefs about the prosecutors' and defendants' hypotheses and to calculate the value of evidence. The Bayesian framework proved useful for evaluating complex hypotheses using findings from several insect species, accounting for uncertainty about development rate, temperature, and precolonization. The applicability of the forensic statistic approach to evaluating forensic results from a CBRN incident is discussed.

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