HIGHLIGHTS
- What: Considering the complex interaction of chest compression conditions actual the authors aimed to predict rib fractures under conditions simulating scenarios by analyzing the sensitivity and interrelation of chest compression conditions the model`s Time constraints led to the selection of optimal analysis conditions through the use of design of experiments (DOE) specifically orthogonal array testing followed by the construction of a deep learning-based metamodel. The authors focus on OHMCPR, and any mention of CPR in the text refers to OHMCPR. The aim of this study was to determine the potential fatigue fractures that may occur . . .
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