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Traffic Injury Prevention Volume 23, 2022 - Issue sup1: Peer-Reviewed Journal for the 66th Annual Scientific Conference of the Association for the Advancement of Automotive Medicine (AAAM)
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Articles

The effect of a moderately reclined seat-back angle on the kinematics of the Large-Omnidirectional Child Anthropomorphic Test Device with and without a belt-positioning booster in frontal crashes

Valentina Gracia Center for Injury Research and Prevention, Children’s Hospital of Philadelphia, Philadelphia, Pennsylvania;b School of Biomedical Engineering, Science and Health System, Drexel University, Philadelphia, PennsylvaniaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-8006-0067
ORCID Icon,
Hans Hauschildc Medical College of Wisconsin, Milwaukee, Wisconsin
,
Jalaj Maheshwaria Center for Injury Research and Prevention, Children’s Hospital of Philadelphia, Philadelphia, PennsylvaniaORCID Iconhttps://orcid.org/0000-0003-2710-7521
ORCID Icon &
John Hummc Medical College of Wisconsin, Milwaukee, Wisconsin
Pages S117-S122 | Received 03 Mar 2022, Accepted 29 Jun 2022, Published online: 21 Jul 2022

References

  • Arbogast KB, Kent R, Menon R, Ghati Y, Durbin D, Rouhana S. 2007. Mechanisms of abdominal organ injury in seat belt-restrained children. J Trauma. 62(6):1473–1480. doi:10.1097/01.ta.0000231965.20704.16
  • Beck B, Brown J, Bilston LE. 2011. Variations in rear seat cushion properties and the effects on submarining. Traffic Inj Prev. 12(1):54–61. doi:10.1080/15389588.2010.523099
  • Bohman K, El-Mobader S, Jackobsson L. 2021. Reclined seating in frontal impacts: a simulation study using PIPER 6y. Paper presented at Protection of Children in Cars Conference Proceeding, Munich.
  • Dissanaike S, Kaufman R, Mack CD, Mock C, Bulger E. 2008. The effect of reclined seats on mortality in motor vehicle collisions. J Trauma. 64(3):614–619. doi:10.1097/TA.0b013e318164d071
  • Durbin DR, Elliott MR, Winston FK. 2003. Belt-positioning booster seats and reduction in risk of injury among children in vehicle crashes. JAMA. 289(21):2835–2840. doi:10.1001/jama.289.21.2835
  • Forman J, Hongnan L, Bronislaw G, Taotao W, Panzer M. 2019. Occupant safety in automated vehicles-effect of seatback recline on occupant restraint. IJAE. 10(2):139–143. doi:10.20485/jsaeijae.10.2_139
  • Girard BM. 2014. Submarning criteria for child restraint systems with older children. In: Proceedings of the 8th United Kingdom & Republic of Ireland Postgraduate Conference in Biomedical Engineering and Medical Physics, University of Surrey UK. p. 4–5.
  • Klinich KD, Reed MP, Ebert SM, Rupp JD. 2014. Kinematics of pediatric crash dummies seated on vehicle seats with realistic belt geometry. Traffic Inj Prev. 15(8):866–874. doi:10.1080/15389588.2014.890720
  • Koppel S, Jiménez Octavio J, Bohman K, Logan D, Raphael W, Quintana Jimenez L, Lopez-Valdes F. 2019. Seating configuration and position preferences in fully automated vehicles. Traffic Inj Prev. 20(sup2):S103–S109.
  • NHTSA. 2014. Laboratory test procedure for federal motor vehicle safety standards 213 child restraint systems. https://www.nhtsa.gov/sites/nhtsa.gov/files/documents/tp-213-10_tag.pdf.
  • Nie B, Gan S, Chen W, Zhou Q. 2020. Seating preferences in highly automated vehicles and occupant safety awareness: A national survey of chinese perceptions. Traffic Inj Prev. 21(4):247–253.
  • Pipkorn B, Wass J. 2017. Pre-crash triggered pretensioning of the seat belt for improved safety. In: 25th International Technical Conference on the Enhanced Safety of Vehicles (ESV): Innovations in Vehicle Safety: Opportunities and Challenges, Detroit, MI.
  • Prasad A. 2019. ATD seating in highly recline seats. In: SAE Goverment Industry Meeting. https://www.nhtsa.gov/sites/nhtsa.gov/files/documents/atd_seating_in_highly_reclined_seats.pdf.
  • Rawska K, Gepner B, Kulkarni S, Chastain K, Zhu J, Richardson R, Perez-Rapela D, Forman J, Kerrigan JR. 2019. Submarining sensitivity across varied anthropometry in an autonomous driving system environment. Traffic Inj Prev. 20(sup2):S123–S127. doi:10.1080/15389588.2019.1655734
  • Rouhana SW, Horsch JD, Kroell CK. 1989. Assessment of lap-shoulder belt restraint performance in laboratory testing. SAE Trans. 98:1810–1823.
  • SAE International Surface Vehicle Recommended Practice (SAE J211). 2014. Instrumentation for impact test part 1 - electronic instrumentation. sae.org/standards/content/j211/1_201403.
  • Seacrist T, Maheshwari J, Graci V, Holt C, Akkem R, Chingas G, Douglas E, Griffith M, Palumbo A. 2019. Biofidelic evaluation of the large omni-directional child anthropomorphic test device in low speed loading conditions. Stapp Car Crash J. 63:213–214.
  • Stammen J, Suntay B, Moorhouse K, Carlson M, Kang Y-S. 2016. The large omnidirectional child (LODC) ATD: biofidelity comparison with the hybrid III 10 year old. Stapp Car Crash J. 60:581–623.
  • Steffan H, Hofinger M, Datentechnik S, Parenteau C, Shah M, Webber J, Dork M, Leinzinger P. 2002. Abdominal responses to dynamically lap belt loading. In: IRCOBI Conference Proceedings. http://www.ircobi.org/wordpress/downloads/irc0111/2002/Session5/5.2.pdf.
  • Suntay B, Carlson M, Stammen J. 2019. Evaluation of the large omni-directional child anthropomorphic test device. Washington, DC: National Highway Traffic Safety Administration. NHTSA Report no. DOT HS 812 755.
  • Suntay B, Stammen J. 2014. Comparative biofidelity assessment of the large omnidirectional child prototype and hybrid III 10-year-old ATD. Washington, DC: National Highway Traffic Safety Administration. NHTSA Report no. DOT HS 812 103.
  • Suntay B, Stammen JA, Carlson M, Ramachandra R. 2021. Abdominal and thoracic injury risk functions for the large omni-directional child (LODC) ATD. In: IRCOBI Conference Proceedings, 2021. p. 537–555. http://www.ircobi.org/wordpress/downloads/irc21/pdf-files/2159.pdf
  • Thorbole C, Naik P. 2019. Role of traumatic seatbelt fat stranding in automotive crash injury analysis. In: 26th International Technical Conference on the Enhanced Safety Vehicles (ESV) Proceeding, Eindhoven, Netherlands. p. 5–24. https://www-esv.nhtsa.dot.gov/Proceedings/26/26ESV-000137.pdf.
  • Trosseille X, Petit P, Uriot J, Potier P, Baudrit P, Richard O, Compigne S, Masuda M, Douard R. 2018. Reference PMHS sled tests to assess submarining of the small female. Stapp Car Crash J. 62:93–118.
  • Visvikis C, Carrol J, Pitcher M, Waagmeester K. 2018. Assessing lap belt path and submarining risk in booster seats: abdominal pressure twin sensors vs. anterior‐superior iliac spine load cells. In: IRCOBI Proceeding. p. 655–668. http://www.ircobi.org/wordpress/downloads/irc18/pdf-files/92.pdf.

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