Validation of a simple multi-body head-and-neck model for efficient rear impact simulations

S. Himmetoglu; T. Balci; M. Aydogan

Validation of a simple multi-body head-and-neck model for efficient rear impact simulations

S. Himmetoglu
, T. Balci
, M. Aydogan

Division of Automotive

Hacettepe University

Research output: Contribution to journal › Conference article › peer-review

3 Citations (Scopus)

Abstract

In this study, a 50th percentile male head-and-neck model which was developed using a multi-body dynamics approach, is validated by using data from JARI (Japanese Automobile Research Institute) rear impact sled tests conducted with 12 male volunteers in normal driving posture on a rigid seat without head restraint and seatbelt. This simple head-and-neck model was previously validated at a sled impact speed of 8 km/h. In this paper, the head-and-neck model is further validated at a sled impact speed of 6.2 km/h using recently published experimental data. The head-and-neck model can be used to simulate efficiently rear impacts and the resulting whiplash associated disorders in road traffic accidents. The results show that the model can represent successfully the rear impact response of a human head-and-neck system.

Original language	English
Pages (from-to)	273-277
Number of pages	5
Journal	Transport Means - Proceedings of the International Conference
Publication status	Published - 2020
Event	24thInternational Scientific Conference on Transport Means 2020 - Kaunas, Lithuania Duration: 30 Sept 2020 → 2 Oct 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Head-and-neck model
Rear impact
Whiplash

Cite this

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title = "Validation of a simple multi-body head-and-neck model for efficient rear impact simulations",

abstract = "In this study, a 50th percentile male head-and-neck model which was developed using a multi-body dynamics approach, is validated by using data from JARI (Japanese Automobile Research Institute) rear impact sled tests conducted with 12 male volunteers in normal driving posture on a rigid seat without head restraint and seatbelt. This simple head-and-neck model was previously validated at a sled impact speed of 8 km/h. In this paper, the head-and-neck model is further validated at a sled impact speed of 6.2 km/h using recently published experimental data. The head-and-neck model can be used to simulate efficiently rear impacts and the resulting whiplash associated disorders in road traffic accidents. The results show that the model can represent successfully the rear impact response of a human head-and-neck system.",

keywords = "Head-and-neck model, Rear impact, Whiplash",

author = "S. Himmetoglu and T. Balci and M. Aydogan",

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year = "2020",

language = "English",

pages = "273--277",

journal = "Transport Means - Proceedings of the International Conference",

issn = "1822-296X",

publisher = "Kauno Technologijos Universitetas",

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TY - JOUR

T1 - Validation of a simple multi-body head-and-neck model for efficient rear impact simulations

AU - Himmetoglu, S.

AU - Balci, T.

AU - Aydogan, M.

PY - 2020

Y1 - 2020

N2 - In this study, a 50th percentile male head-and-neck model which was developed using a multi-body dynamics approach, is validated by using data from JARI (Japanese Automobile Research Institute) rear impact sled tests conducted with 12 male volunteers in normal driving posture on a rigid seat without head restraint and seatbelt. This simple head-and-neck model was previously validated at a sled impact speed of 8 km/h. In this paper, the head-and-neck model is further validated at a sled impact speed of 6.2 km/h using recently published experimental data. The head-and-neck model can be used to simulate efficiently rear impacts and the resulting whiplash associated disorders in road traffic accidents. The results show that the model can represent successfully the rear impact response of a human head-and-neck system.

AB - In this study, a 50th percentile male head-and-neck model which was developed using a multi-body dynamics approach, is validated by using data from JARI (Japanese Automobile Research Institute) rear impact sled tests conducted with 12 male volunteers in normal driving posture on a rigid seat without head restraint and seatbelt. This simple head-and-neck model was previously validated at a sled impact speed of 8 km/h. In this paper, the head-and-neck model is further validated at a sled impact speed of 6.2 km/h using recently published experimental data. The head-and-neck model can be used to simulate efficiently rear impacts and the resulting whiplash associated disorders in road traffic accidents. The results show that the model can represent successfully the rear impact response of a human head-and-neck system.

KW - Head-and-neck model

KW - Rear impact

KW - Whiplash

UR - https://www.scopus.com/pages/publications/85100197202

M3 - Conference article

AN - SCOPUS:85100197202

SN - 1822-296X

SP - 273

EP - 277

JO - Transport Means - Proceedings of the International Conference

JF - Transport Means - Proceedings of the International Conference

T2 - 24thInternational Scientific Conference on Transport Means 2020

Y2 - 30 September 2020 through 2 October 2020

ER -

Validation of a simple multi-body head-and-neck model for efficient rear impact simulations

Abstract

UN SDGs

Keywords

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