scholarly journals Effects of seat pan and pelvis angles on the occupant response in a reclined position during a frontal crash

PLoS ONE ◽  
2021 ◽  
Vol 16 (9) ◽  
pp. e0257292
Author(s):  
Cyrille Grébonval ◽  
Xavier Trosseille ◽  
Philippe Petit ◽  
Xuguang Wang ◽  
Philippe Beillas
Keyword(s):  
Injury Risk ◽  
Small Variation ◽  
Post Mortem ◽  
Human Body Model ◽  
Frontal Crash ◽  
Sled Test ◽  
Automated Vehicle ◽  
Occupant Protection ◽  
Acceleration Pulse ◽  
Body Model

Current highly automated vehicle concepts include reclined seat layouts that could allow occupants to relax during the drive. The main objective of this study was to investigate the effects of seat pan and pelvis angles on the kinematics and injury risk of a reclined occupant by numerical simulation of a frontal sled test. The occupant, represented by a detailed 50th percentile male human body model, was positioned on a semi-rigid seat. Three seat pan angles (5, 15, and 25 degrees from the horizontal) were used, all with a seatback angle of 40 degrees from the vertical. Three pelvis angles (60, 70, and 80 degrees from the vertical), representing a nominal and two relaxed sitting positions, were used for each seat pan angle. The model was restrained using a pre-inflated airbag and a three-point seatbelt equipped with a pretensioner and a load limiter before being subjected to two frontal crash pulses. Both model kinematic response and predicted injury risk were affected by the seat pan and the pelvis angles in a reclined seatback position. Submarining occurrence and injury risk increased with lower seat pan angle, higher pelvis angle, and acceleration pulse severity. In some cases (in particular for a 15 degrees seat pan), a small variation in seat pan or pelvis angle resulted in large differences in terms of kinematics and predicted injury. This study highlights the potential effects of the seat pan and pelvis angles for reclined occupant protection. These parameters should be assessed experimentally with volunteers to determine which combinations are most likely to be adopted for comfort and with post mortem human surrogates to confirm their significance during impact and to provide data for model validation. The sled and restraint models used in this study are provided under an open-source license to facilitate further comparisons.

A Human Body Model Study on Restraints for Side-Facing Occupants in Frontal Crashes of an Automated Vehicle

2020 ◽  
Author(s):  
Jay Zhijian Zhao ◽  
Maika Katagiri ◽  
William Decker ◽  
Sungwoo Lee ◽  
Francis Gayzik
Keyword(s):  
Human Body ◽  
Human Body Model ◽  
Automated Vehicle ◽  
Body Model ◽  
Model Study ◽  
Frontal Crashes

Structure Improvement of the S Beam Based on the Safety of SUV

2010 ◽  
Vol 34-35 ◽  
pp. 675-680
Author(s):  
Jun Wu ◽  
Li Bo Cao ◽  
Tian Zhi Chen ◽  
Chen Chen Hu ◽  
Bing Hui Jiang ◽  
...  
Keyword(s):  
Rigid Body ◽  
Crash Test ◽  
Fe Model ◽  
Frontal Impact ◽  
Frontal Crash ◽  
Occupant Protection ◽  
Body Model ◽  
Crash Safety ◽  
Rigid Body Model ◽  
Structure Improvement

The S beam of a production SUV appeared instable deformation in frontal crash test, which was not beneficial to occupant protection. So the deformation of S beam should be controlled to improve the crashworthiness. Inner improvement structures were proposed according to the prototype S beam. A frontal crash FE model and a multi-rigid body model were developed and validated to investigate the crash safety of frontal impact. The influences of the improvements to the deformation of S beam and the energy absorption of longitudinal beams were analyzed by the FE model, and the injury risks of head and thoraces were analyzed by the multi-rigid body model. The better improvement structure was adopted in the frame for the crash test to validate the effectiveness of improved scheme, and the result shows better crash performance of frontal impact for prototype vehicle. Meanwhile, simulation study on crash safety of 40% offset crash were also conducted, which indicated that improved scheme was also beneficial for crash safety of 40% offset crash.

scholarly journals Personalization of a Human Body Model Using Subject-Specific Clothing Industry Dimensions

2021 ◽  
Author(s):  
Luděk Hynčík ◽  
Hana Čechová ◽  
Tomasz Bońkowski ◽  
Gabriela Kavalířová ◽  
Petra Špottová ◽  
...  
Keyword(s):  
Human Body ◽  
Injury Risk ◽  
Population Group ◽  
Clothing Industry ◽  
Human Body Model ◽  
Chinese Adults ◽  
Biomechanical Models ◽  
Body Model ◽  
Subject Specific ◽  
Human Body Models

Virtual human body models contribute to designing safe and user-friendly products through virtual prototyping. Anthropometric biomechanical models address different physiques using average dimensions. In designing personal protective equipment, biomechanical models with the correct geometry and shape shall play a role. The presented study shows the variations of subject-specific anthropometric dimensions from the average for the different population groups in the Czech Republic and China as a background for the need for personalized human body models. The study measures a set of clothing industry dimensions of Czech children, Czech teens, Czech adults and Chinese adults and compares them to the corresponding age average, which is represented by a scaled anthropometric human body model. The cumulative variation of clothing industry dimensions increases the farer is the population group from the average. It is smallest for the Czech adults 7.54% ± 6.63%, Czech teens report 7.93% ± 6.25% and Czech children differ 9.52% ± 6.08%. Chinese adults report 10.86% ± 11.11%. As the variations of the particular clothing industry dimensions from the average prove the necessity of having personalized subject-specific models, the personalization of particular body segments using the measured clothing industry dimensions leading to a subject-specific virtual model is addressed. The developed personalization algorithm results in the continuous body surface desired for contact applications for assessing body behavior and injury risk under impact loading.

scholarly journals Personalization of a Human Body Model Using Subject-Specific Dimensions for Designing Clothing Patterns

2021 ◽  
Vol 11 (21) ◽  
pp. 10138
Author(s):  
Luděk Hynčík ◽  
Hana Čechová ◽  
Tomasz Bońkowski ◽  
Gabriela Kavalířová ◽  
Petra Špottová ◽  
...  
Keyword(s):  
Human Body ◽  
Injury Risk ◽  
Population Group ◽  
Human Body Model ◽  
Chinese Adults ◽  
Biomechanical Models ◽  
Body Model ◽  
Subject Specific ◽  
Human Body Models ◽  
Safety Systems

Virtual human body models contribute to designing safe and user-friendly products through virtual prototyping. Anthropometric biomechanical models address different physiques using average dimensions. In designing, e.g., personal protective equipment, orthopedic tools, or vehicle safety systems, biomechanical models with the correct geometry and shape shall play a role. The presented study shows the variations of subject-specific anthropometric dimensions from the average of the different population groups in the Czech Republic and China as a background for the need for personalized human body models. The study measures a set of dimensions used to design clothing patterns of Czech children, Czech adolescents, Czech adults, and Chinese adults and compares them to the corresponding age average, which is represented by a scaled anthropometric human body model. The cumulative variation of the dimensions used to design the clothing patterns increases the further the population group is from the average. It is smallest for the Czech adults at 7.54 ± 6.63%; Czech adolescents report 7.93 ± 6.25%; Czech children differ be 9.52 ± 6.08%. Chinese adults report 10.86 ± 11.11%. The variations from the average of the particular dimensions used to design clothing patterns prove the necessity of having personalized subject-specific models. The measured dimensions used to design the clothing patterns serve as the personalization of particular body segments and lead to a subject-specific virtual model. The developed personalization algorithm results in the continuous body surface desired for contact applications for assessing body behavior and injury risk under impact loading.

Personificación de Modelos de Elementos Finitos de Cuerpo Humano

2019 ◽  
Vol 7 ◽  
Author(s):  
Ana Piqueras Lorente ◽  
Johan Iraeus ◽  
Francisco José López Valdés ◽  
Ana Isabel Lorente Corellanos ◽  
Óscar Juste Lorente ◽  
...  
Keyword(s):  
Human Body ◽  
Human Subject ◽  
Human Subjects ◽  
Initial Position ◽  
Anatomical Landmarks ◽  
Post Mortem ◽  
Human Body Model ◽  
Body Model ◽  
Measured Position ◽  
Oblique Impacts

The goal of this study was to quantify the effect of improving the geometry of a human body model on the accuracy of the predicted kinematics for 4 post-mortem human subject sled tests. Three modifications to the computational human body model THUMS were carried out to evaluate if subject personification can increase the agreement between predicted and measured kinematics of post-mortem human subjects in full frontal and nearside oblique impacts. The modifications consisted of: adjusting the human body model mass to the actual subject mass, morphing it to the actual anthropometry of each subject and finally adjustment of the model initial position to the measured position in selected post-mortem human subject tests. A quantitative assessment of the agreement between predicted and measured response was carried out by means of CORA analysis by comparing the displacement of selected anatomical landmarks (head CoG, T1 and T8 vertebre and H-Point). For all three scenarios, the more similar the human body model was to the anthropometry and posture of the sled tested post-mortem human subject, the more similar the predictions were to the measured responses of the post-mortem human subject, resulting in higher CORA score.

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