Comparisons of whole body vibration, muscle activity and non-driving task performance between different seat suspensions in an autonomous passenger car …
This study compared whole body vibration (WBV), muscle activity and non-driving task
performance between different seat suspension settings in a simulated autonomous …
performance between different seat suspension settings in a simulated autonomous …
[PDF][PDF] Comparisons of Whole Body Vibration, Muscle Activity and Non-driving Task Performance between Different Seat Suspensions in an Autonomous Passenger …
K Kia, PW Johnson, JH Kim - 2018 - researchgate.net
This study compared whole body vibration (WBV), muscle activity and non-driving task
performance between different seat suspension settings in a simulated autonomous …
performance between different seat suspension settings in a simulated autonomous …
[PDF][PDF] Comparisons of Whole Body Vibration, Muscle Activity and Non-driving Task Performance between Different Seat Suspensions in an Autonomous Passenger …
K Kia, PW Johnson, JH Kim - 2018 - academia.edu
This study compared whole body vibration (WBV), muscle activity and non-driving task
performance between different seat suspension settings in a simulated autonomous …
performance between different seat suspension settings in a simulated autonomous …
Comparisons of Whole Body Vibration, Muscle Activity and Non-driving Task Performance between Different Seat Suspensions in an Autonomous Passenger Car …
K Kia, PW Johnson, JH Kim - Proceedings of the Human Factors and …, 2018 - trid.trb.org
This study compared whole body vibration (WBV), muscle activity and non-driving task
performance between different seat suspension settings in a simulated autonomous …
performance between different seat suspension settings in a simulated autonomous …