论文信息 - Quantitative biomechanical analysis of transient body behavior during lateral-directional motion of vehicle occupant

Quantitative biomechanical analysis of transient body behavior during lateral-directional motion of vehicle occupant

In the design of a unified system by human and car seat, comprehensive methodology as the technique including principle and structure of mutual dynamic systems has been required and analyzed. However, these topics have been studied for only vibration measurement. The purpose of this study is to simulate biomechanical body behavior of vehicle occupant in lateral-directional transient acceleration using the carriage, the car seat, motion capture system and mobile force plate. In this paper, the seated body behavior with lateral-directional acceleration is simulated by the experiments and the obtained physical components are quantitatively evaluated by singular value decomposition. As a result of the experiments and data analysis, the effectiveness of the method to analyze biomechanical behavior of vehicle occupant during lateral-directional transient motion on the car seat and its quantitative evaluation concerning principal human motion patterns are validated. Obtained motion patterns may be useful for the efficient automobile design.

[2] Michael J. Griffin,et al. Transmission of roll, pitch and yaw vibration to the backrest of a seat supported on a non-rigid car floor , 2005 .

[3] Shinya Aoi,et al. Quantitative Evaluation of the Intersegmental Coordination during Human Locomotion , 2010 .

[4] Yoshio Inoue,et al. Development of Walking Analysis System Using by Motion Sensor with Mobile Force Plate , 2012 .

[5] Salam Rahmatalla,et al. Effective seat-to-head transmissibility in whole-body vibration: Effects of posture and arm position , 2011 .

[6] 孝之小泉,et al. 水平・垂直連成振動における人体動特性を考慮した乗り心地評価(機械力学,計測,自動制御) , 2002 .

[7] Shinya Aoi,et al. Validating the feedback control of intersegmental coordination by fluctuation analysis of disturbed walking , 2015, Experimental Brain Research.

[8] T. Koizumi. A study on the evaluation of ride comfort due to human dynamic characteristics , 2000 .

[9] Michael J. Griffin,et al. Transmission of fore–aft vibration to a car seat using field tests and laboratory simulation , 2003 .

[10] Yuichiro Hayashi,et al. Unrestrained Human Gait Motion Analysis of Healthy Subjects and Trans-Femoral Amputee Using Mobile Force Plate , 2013 .

[11] K. Tsuchiya,et al. Variant and invariant patterns embedded in human locomotion through whole body kinematic coordination , 2010, Experimental Brain Research.