Modeling human decomposition: a Bayesian approach
- URL: http://arxiv.org/abs/2411.09802v1
- Date: Thu, 14 Nov 2024 20:37:10 GMT
- Title: Modeling human decomposition: a Bayesian approach
- Authors: D. Hudson Smith, Noah Nisbet, Carl Ehrett, Cristina I. Tica, Madeline M. Atwell, Katherine E. Weisensee,
- Abstract summary: We develop a generative probabilistic model for decomposing human remains based on postmortem interval (PMI)
This model explicitly represents the effect of each variable, including PMI, on the appearance of each decomposition characteristic.
We show that the model accurately predicts 24 decomposition characteristics with an ROC AUC score of 0.85.
- Score: 0.0
- License:
- Abstract: Environmental and individualistic variables affect the rate of human decomposition in complex ways. These effects complicate the estimation of the postmortem interval (PMI) based on observed decomposition characteristics. In this work, we develop a generative probabilistic model for decomposing human remains based on PMI and a wide range of environmental and individualistic variables. This model explicitly represents the effect of each variable, including PMI, on the appearance of each decomposition characteristic, allowing for direct interpretation of model effects and enabling the use of the model for PMI inference and optimal experimental design. In addition, the probabilistic nature of the model allows for the integration of expert knowledge in the form of prior distributions. We fit this model to a diverse set of 2,529 cases from the GeoFOR dataset. We demonstrate that the model accurately predicts 24 decomposition characteristics with an ROC AUC score of 0.85. Using Bayesian inference techniques, we invert the decomposition model to predict PMI as a function of the observed decomposition characteristics and environmental and individualistic variables, producing an R-squared measure of 71%. Finally, we demonstrate how to use the fitted model to design future experiments that maximize the expected amount of new information about the mechanisms of decomposition using the Expected Information Gain formalism.
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