Occupant Kinetics and Muscle Responses of Relaxed and Braced Small Female and Midsize Male Volunteers in Low-Speed Frontal Sled Tests-Reference-Cited by-同舟云学术

Occupant Kinetics and Muscle Responses of Relaxed and Braced Small Female and Midsize Male Volunteers in Low-Speed Frontal Sled Tests

Published:2023-07-28 Issue:3 Volume:11 Page:
ISSN:2327-5626
Container-title:SAE International Journal of Transportation Safety
language:en
Short-container-title:SAE Int. J. Trans. Safety

Author:

Chan Hana¹,Albert Devon L.¹,Gayzik F. Scott¹,Kemper Andrew R.¹

Affiliation:

1. Virginia Tech–Wake Forest University Center for Injury Biomechanics, USA

Abstract

<div>Previous volunteer studies focused on low-speed frontal events have demonstrated that muscle activation (specifically pre-impact bracing) can significantly affect occupant response. However, these tests do not always include a sufficient number of small female volunteers to compare their unique responses to the typically studied midsize male population. The purposes of this study were to quantify the occupant kinetics and muscle responses of relaxed and braced small female and midsize male volunteers during low-speed frontal sled tests and to compare between muscle states and demographic groups. Small female and midsize male volunteers experienced multiple low-speed frontal sled tests consisting of two pulse severities (1 g and 2.5 g) and two muscle states (relaxed and braced) per pulse severity. The muscle activity of 30 muscles (15 bilaterally) and reaction forces at the volunteer-test buck interfaces and seat belt were measured before and during each sled test. Compared to the relaxed muscle state, bracing generally increased pre-test muscle activity and pre-test forces, delayed muscle activation (relative to the pre-test value) in response to the sled pulse, and increased peak forces during the sled tests. However, relaxed volunteers exhibited greater changes in muscle activity and reaction forces relative to the pre-test value. Males exhibited higher peak forces across all reaction surfaces during the sled tests compared to females, but peak muscle activity varied as to whether males or females exhibited higher activation. The upper extremity muscles activated the most during pre-test bracing, while the upper extremity, trunk, and neck muscles activated the most during the sled tests.</div>

Publisher

SAE International

Subject

Mechanical Engineering,Safety Research,Safety, Risk, Reliability and Quality,Human Factors and Ergonomics,General Medicine

Reference69 articles.

1. Cicchino , J.B. Effectiveness of Forward Collision Warning and Autonomous Emergency Braking Systems in Reducing Front-to-Rear Crash Rates Accident Analysis & Prevention 99 2017 142 152 https://doi.org/10.1016/j.aap.2016.11.009

2. NHTSA 2022 https://www.nhtsa.gov/press-releases/nhtsa-announces-2020-update-aeb-installation-20-automakers

3. Graci , V. , Maltenfort , M. , Schneider , M. , Griffith , M. et al. Quantitative Characterization of AEB Pulses across the Modern Fleet Traffic Injury Prevention 22 sup1 2021 S62 S67 https://doi.org/10.1080/15389588.2021.1961227

4. Hulshof , W. , Knight , I. , Edwards , A. , Avery , M. et al. Autonomous Emergency Braking Test Results 23rd International Technical Conference on the Enhanced Safety of Vehicles (ESV) Seoul, South Korea 2013 https://www-esv.nhtsa.dot.gov/Proceedings/23/files/23ESV-000168.pdf

5. Ejima , S. , Zama , Y. , Ono , K. , Kaneoka , K. et al. Prediction of Pre-Impact Occupant Kinematic Behavior Based on the Muscle Activity during Frontal Collision 21st International Technical Conference on the Enhanced Safety of Vehicles (ESV) Stuttgart, Germany 2009 https://www-esv.nhtsa.dot.gov/Proceedings/21/09-0193.pdf