Max Bareiss scite author profile

Max Bareiss

5Publications

31Citation Statements Received

12Citation Statements Given

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Virginia Tech

Publications

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Crash and injury prevention estimates for intersection driver assistance systems in left turn across path/opposite direction crashes in the United States

Bareiss

Scanlon

Sherony³

et al. 2019

Traffic Injury Prevention

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Objective: The objective of this research study was to estimate the number of left turn across path/opposite direction (LTAP/OD) crashes and injuries that could be prevented in the United States if vehicles were equipped with an intersection advanced driver assistance system (I-ADAS). Methods: This study reconstructed 501 vehicle-to-vehicle LTAP/OD crashes in the United States that were investigated in the NHTSA National Motor Vehicle Crash Causation Survey (NMVCCS). The performance of 30 different I-ADAS system variations was evaluated for each crash. These variations were the combinations of 5 time-to-collision (TTC) activation thresholds, 3 latency times, and 2 different response types (automated braking and driver warning). In addition, 2 sightline assumptions were modeled for each crash: One where the turning vehicle was visible long before the intersection and one where the turning vehicle was only visible within the intersection. For resimulated crashes that were not avoided by I-ADAS, a new crash delta-V was computed for each vehicle. The probability of Abbreviated Injury Scale 2 or higher injury in any body region (Maximum Abbreviated Injury Scale [MAIS] 2þF) to each front-row occupant was computed. Results: Depending on the system design, sightline assumption, I-ADAS variation, and fleet penetration, an I-ADAS system that automatically applies emergency braking could avoid 18-84% of all LTAP/OD crashes. Only 0-32% of all LTAP/OD crashes could have been avoided using an I-ADAS system that only warns the driver. An I-ADAS system that applies emergency braking could prevent 47-93% of front-row occupants from receiving MAIS 2 þ F injuries. A system that warns the driver in LTAP/OD crashes was able to prevent 0-37% of front-row occupants from receiving MAIS 2 þ F injuries. The effectiveness of I-ADAS in reducing crashes and number of injured persons was higher when both vehicles were equipped with I-ADAS. Conclusions: This study presents the simulated effectiveness of a hypothetical intersection active safety system on real crashes that occurred in the United States. This work shows that there is a strong potential to reduce crashes and injuries in the United States.

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Estimating near side crash injury risk in best performing passenger vehicles in the United States

Bareiss

Gabler

2020

Accident Analysis & Prevention

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Finding and understanding pedal misapplication crashes using a deep learning natural language model

Bareiss

Smith

Gabler

2021

Traffic Injury Prevention

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Evaluation of intersection crashes using naturalistic driving data through the lens of future I-ADAS

Galloway

Bareiss

Hasegawa

et al. 2023

Traffic Injury Prevention

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In-Depth Evaluation of Association between Crash and Hand Arthritis via Naturalistic Driving Study

et al. 2022

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Severe arthritis can limit a driver’s range of motion and increase their crash risk. The high prevalence of arthritis among the US driver population, especially among senior drivers, makes it a public safety concern. In this study, we evaluate the impact of arthritis on driving behavior and crash risk using the Second Strategic Highway Research Program Naturalistic Driving Study (SHRP 2 NDS), which collected continuous driving data through data acquisition systems installed on participant’s vehicles. A detailed questionnaire survey was administered on demographic, health conditions, and personality information at the time of recruitment. The dataset includes 3563 participants. Among them, 78 drivers were identified to have severe arthritis, and they contributed to 414 out of 1641 crashes. We systematically evaluated the impact of severe arthritis on crash risk, secondary task engagement, and fitness-to-drive metrics. The results show there is a significant relationship between arthritis and crash risk, with an odds ratio of 1.99 with adjustment for age effects, which indicates that individuals with arthritis are twice as likely to be involved in a crash. There is no statistically significant association between arthritis and secondary task engagement, as well as the sensation-seeking scores, a personality trait.

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Max Bareiss

Crash and injury prevention estimates for intersection driver assistance systems in left turn across path/opposite direction crashes in the United States

Estimating near side crash injury risk in best performing passenger vehicles in the United States

Finding and understanding pedal misapplication crashes using a deep learning natural language model

Evaluation of intersection crashes using naturalistic driving data through the lens of future I-ADAS

In-Depth Evaluation of Association between Crash and Hand Arthritis via Naturalistic Driving Study

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