Finite Element Analysis for Investigating the Effects of Muscle Activation on Head-neck Injury Risks of Drivers Rear-ended by a Car after an Autonomous Emergency Braking

Masami Iwamoto; Yuko Nakahira; Daichi Kato

首页> 外文期刊>International Journal of Automotive Engineering >Finite Element Analysis for Investigating the Effects of Muscle Activation on Head-neck Injury Risks of Drivers Rear-ended by a Car after an Autonomous Emergency Braking

【24h】

Finite Element Analysis for Investigating the Effects of Muscle Activation on Head-neck Injury Risks of Drivers Rear-ended by a Car after an Autonomous Emergency Braking

机译：有限元分析，研究肌肉激活对自动紧急制动后追尾驾驶员头部颈部受伤风险的影响

获取原文

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Avoidance of frontal collisions by autonomous emergency braking (AEB) in sudden traffic jams has the potential to cause rear-end collisions by the following cars. In this study, finite element analyses using a human body model were performed to investigate how the muscle activations of drivers rear-ended by the following car could affect head-neck injury risks. Three muscle conditions of sleeping, relaxed, and braced drivers were assumed using a developed muscle controller. The simulation results suggest that vehicle systems that let drivers brace themselves at the onset of the AEB might be effective in reducing head-neck injury risks in this type of collisions.

机译：在突然的交通拥堵中，通过自动紧急制动（AEB）避免正面碰撞有可能导致随后的车辆追尾。在这项研究中，进行了使用人体模型的有限元分析，以研究后车追尾的驾驶员的肌肉激活如何影响头颈部受伤的风险。使用发达的肌肉控制器假定了三种睡眠，放松和支撑状态的肌肉状况。仿真结果表明，让驾驶员在AEB发作时做好准备的车辆系统可能会有效地减少此类碰撞中头部受伤的风险。

著录项

来源
《International Journal of Automotive Engineering》 |2018年第3期|共6页
作者
Masami Iwamoto; Yuko Nakahira; Daichi Kato;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种
中图分类自动化技术及设备;
关键词
Safetyrear end collisionanthropomorphic dummymuscle activationhead-neck injury risk;

机译：安全性尾端碰撞拟人虚拟肌激活头颈部受伤风险;

相似文献

外文文献
中文文献
专利

1. Effects of active muscle forces on driver's lower-limb injuries due to emergency brake in various frontal impacts [J] . Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2020,第7期

机译：在各种正面冲击中，活跃肌肉力量对驾驶员低肢损伤的影响
2. Driver braking behavior analysis to improve autonomous emergency braking systems in typical Chinese vehicle-bicycle conflicts [J] . Duan Jingliang, Li Renjie, Hou Lian, Accident Analysis & Prevention . 2017,第nova期

机译：在典型的中国自行车冲突中，驾驶员的制动行为分析可改善自动紧急制动系统
3. Predicting the Effects of Muscle Activation on Knee, Thigh, and Hip Injuries in Frontal Crashes Using a Finite-Element Model with Muscle Forces from Subject Testing and Musculoskeletal Modeling [J] . Chia-Yuan Chang Jonathan D Rupp Matthew P Reed Richard E Hughes Lawrence W Schneider Stapp Car Crash Journal . 2009,第1期

机译：使用受试和肌肉骨骼建模的有限元模型，通过肌肉力预测肌肉碰撞对额骨膝盖，大腿和髋关节损伤的影响
4. Predicting the Effects of Muscle Activation on Knee, Thigh, and Hip Injuries in Frontal Crashes Using a Finite-Element Model with Muscle Forces from Subject Testing and Musculoskeletal Modeling [C] . Chia-Yuan Chang, Jonathan D. Rupp, Matthew P. Reed, Stapp Car Crash Conference . 2009

机译：采用受试者试验肌肉力量的有限元模型预测骨骼激活对膝盖，大腿和髋关节伤害的影响及肌肉力量和肌肉骨骼建模
5. Brake Rotor Design and Comparison using Finite Element Analysis: An Investigation in Topology Optimization [D] . Domond, Kenneth 2010

机译：制动器转子的设计与有限元比较：拓扑优化研究
6. Modelling of forefoot injuries caused by brake pedal loading – a finite element analysis case study [O] . Bisola Mutingwende, Robert Ashford, Clive Neal-Sturgess, 2014

机译：制动踏板负载导致的前脚受伤建模–有限元分析案例研究
7. Finite Element Analysis for Investigating the Effects of Muscle Activation on Head-neck Injury Risks of Drivers Rear-ended by a Car after an Autonomous Emergency Braking [O] . Masami Iwamoto, Yuko Nakahira, Daichi Kato 2018

机译：有限元分析，用于研究自主应急制动后汽车追尾驾驶员头颈损伤风险的有限元分析

Finite Element Analysis for Investigating the Effects of Muscle Activation on Head-neck Injury Risks of Drivers Rear-ended by a Car after an Autonomous Emergency Braking

摘要

著录项

相似文献

相关主题

期刊订阅