2020
DOI: 10.1080/10255842.2020.1830380
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Methodology for vehicle safety development and assessment accounting for occupant response variability to human and non-human factors

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Cited by 11 publications
(5 citation statements)
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“…Therefore, it cannot be known if the rib fracture prediction obtained from a single HBM representing some subpopulation average is an over- or underestimation; there is a need for more knowledge about the injury distribution in order to make informed design choices. A recent study presented a methodology to compute distributions of probabilistic rib fracture risks through HBM simulations in a far-side crash scenario ( Perez-Rapela et al, 2021 ). In that study, a response surface (i.e., a meta-model) was created to predict HBM rib fracture risk based on six parameters describing human, crash, and safety system variability.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, it cannot be known if the rib fracture prediction obtained from a single HBM representing some subpopulation average is an over- or underestimation; there is a need for more knowledge about the injury distribution in order to make informed design choices. A recent study presented a methodology to compute distributions of probabilistic rib fracture risks through HBM simulations in a far-side crash scenario ( Perez-Rapela et al, 2021 ). In that study, a response surface (i.e., a meta-model) was created to predict HBM rib fracture risk based on six parameters describing human, crash, and safety system variability.…”
Section: Introductionmentioning
confidence: 99%
“…By contrast, computational alternatives using Finite Element (FE) analysis provide the means to represent the complex morphology and non-linear material response of the human body. Commonly known as FE Human Body Models (FE-HBM), not only are these models capable of matching human responses ( Wu et al, 2017 ; Chen et al, 2018 ) but also have the potential to model omnidirectional responses and predict injury at the tissue levels ( Iraeus and Lindquist, 2014 ; Perez-Rapela et al, 2021b ). The capabilities of HBMs open avenues to evaluate safety in non-traditional cases ( Katagiri et al, 2016 ; Perez-Rapela et al, 2019 ) and future seating configurations ( Rawska et al, 2020 , Rawska et al, 2021 ; Östh et al, 2020 ).…”
Section: Introductionmentioning
confidence: 99%
“…Another approach was proposed in Adam and Untaroiu (2011) and Untaroiu and Adam (2013) where first a classification of pre-crash occupant postures was performed and a genetic algorithm was then used to optimize the restraint system for the different classes. In Perez-Rapela et al (2020) neural networks in combination with Monte Carlo simulations are used to account for occupant response variability in the assessment of safety systems. An overview of design optimization for structural crashworthiness can be found in Fang et al (2017).…”
Section: Introductionmentioning
confidence: 99%
“…This scenario catalogue tends to be the load cases tested in regulations or consumer information testing. However, ideally these scenario catalogues should cover a wide range of scenarios to finally design a robust restraint system and not to miss potentially critical scenarios, likely to happen in the field (Perez-Rapela et al, 2020).…”
Section: Introductionmentioning
confidence: 99%
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