Literature DB >> 30338316

An AI model for Rapid and Accurate Identification of Chemical Agents in Mass Casualty Incidents.

Nicholas Boltin1, Daniel Vu1, Bethany Janos1, Alyssa Shofner1, Joan Culley2, Homayoun Valafar1.   

Abstract

In this report we examine the effectiveness of WISER in identification of a chemical culprit during a chemical based Mass Casualty Incident (MCI). We also evaluate and compare Binary Decision Tree (BDT) and Artificial Neural Networks (ANN) using the same experimental conditions as WISER. The reverse engineered set of Signs/Symptoms from the WISER application was used as the training set and 31,100 simulated patient records were used as the testing set. Three sets of simulated patient records were generated by 5%, 10% and 15% perturbation of the Signs/Symptoms of each chemical record. While all three methods achieved a 100% training accuracy, WISER, BDT and ANN produced performances in the range of: 1.8%-0%, 65%-26%, 67%-21% respectively. A preliminary investigation of dimensional reduction using ANN illustrated a dimensional collapse from 79 variables to 40 with little loss of classification performance.

Entities:  

Keywords:  HSDB; MCI; Machine Learning; NLM; TOXNET; WISER

Year:  2016        PMID: 30338316      PMCID: PMC6191201     

Source DB:  PubMed          Journal:  HIMS 2016 (2016)


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1.  Mobile Decision Support Tool for Emergency Departments and Mass Casualty Incidents (EDIT): Initial Study.

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