Human Core Temperature Prediction for Heat-Injury Prevention

Abstract

Previously, our group developed autoregressive (AR) models to predict human core temperature and help prevent hyperthermia (temperature greater than 39 Degrees C). However, the models often yielded delayed predictions, limiting their application as a real-time warn- ing system. To mitigate this problem, here we combined AR-model point estimates with statistically derived prediction intervals (PIs) and assessed the performance of three new alert algorithms [ AR model plus PI, median filter of AR model plus PI decisions, and an adaptation of the sequential probability ratio test (SPRT) ] .Using field-study data from 22 soldiers, including five subjects who experienced hyperthermia, we assessed the alert algorithms for AR-model prediction windows from 15-30 min. Cross-validation simulations showed that, as the prediction windows increased, improvements in the algorithms effective prediction horizons were offset by deteriorating accuracy, with a 20-min window providing a reasonable compromise. Model plus PI and SPRT yielded the largest effective prediction horizons (18 min), but these were offset by other performance measures. If high sensitivity and a long effective prediction horizon are desired, model plus PI provides the best choice, assuming decision switches can be tolerated. In contrast, if a small number of decision switches are desired, SPRT provides the best compromise as an early warning system of impending heat illnesses.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2015

Accession Number

ADA620509

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