Matthew G. Harper scite author profile

The goal of this work was to collect on-track driver head kinematics using instrumented mouthpieces and characterize environmental exposure to accelerations and vibrations. Six NASCAR drivers were instrumented with custom-fit mouthpieces to collect head kinematic data. Devices were deployed at four tracks during practice and testing environments and configured to collect approximately 11 minutes of linear acceleration and rotational velocity data at 200 Hz. This continuous data collection, combined with film review, allowed extraction of complete laps of data. In addition to typical data processing methods, a moving-point average was calculated and subtracted from the overall signal for both linear acceleration and rotational velocity to determine the environmental component of head motion. The current analysis focuses on 42 full laps of data collected at four data collection events. The number of laps per track ranged from 2 to 23. Linear acceleration magnitudes for all 42 laps ranged from 2.46 to 7.48 g and rotational velocity ranged from 1.25 to 3.35 rad/s. After subtracting the moving average, linear acceleration ranged from 0.92 to 5.45 g and rotational velocity ranged from 0.57 to 2.05 rad/s. The current study has established the feasibility of using an instrumented mouthpiece to measure head kinematics in NASCAR and presented a technique for isolating head motion due to cornering acceleration from those due to short-term perturbations experienced by the driver.

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Influence of Driver Position and Seat Design on Thoracolumbar Loading During Frontal Impacts

Patalak¹,

Davis²,

Gaewsky³

et al. 2018

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Matthew G. Harper

Estimated crash injury risk and crash characteristics for motorsport drivers

Implications of head and neck restraint test repeatability for specification improvement

Pilot Collection and Evaluation of Head Kinematics in Stock Car Racing

Influence of Driver Position and Seat Design on Thoracolumbar Loading During Frontal Impacts

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