Assessing the safety benefit of automatic collision avoidance systems
Assessing the safety benefit of automatic collision avoidance systems
Throughout the last decade a number of advanced system concepts for improving safety, efficiency, environmental compatibility and comfort of driving have emerged. One of these, Automatic Collision Avoidance Systems (ACAS) aims to help drivers to avoid accidents by alerting them to a potential collision and initiating braking. This paper assesses the safety effects of ACAS by examining driver response during emergency braking situations.
A series of emergency braking tests were undertaken on a test track. Six subjects (each with at least five years driving experience) were asked to follow a special ‘dummy’ vehicle and drive the TRG instrumented vehicle. The dummy vehicle, a lightweight trailer unit designed to withstand impacts safely, was then subjected to brake to a stop from three speed levels (60,45 and 30 mph) with decelerations which varied between 0.65g and 0.95g. The TRG instrumented vehicle enabled detailed information to be collected on driver responses such as relative speed, spacing distance, pedal movement, speed and deceleration levels.
The data analysis has showed that drivers are likely to initiate their braking before the time to collision (TTC) reaches 4 seconds. Consequently, an autonomous ACAS with a 4 seconds TTC threshold would not give warning that could help drivers reducing their response time.
Moreover, headway was found to be the main safety factor that ensures drivers would avoid
collision.
1-13
National Highway Traffic Safety Administration
Sultan, Beshr
59cbf034-09b6-4750-8d09-06ed7e87404c
McDonald, Mike
cd5b31ba-276b-41a5-879c-82bf6014db9f
2003
Sultan, Beshr
59cbf034-09b6-4750-8d09-06ed7e87404c
McDonald, Mike
cd5b31ba-276b-41a5-879c-82bf6014db9f
Sultan, Beshr and McDonald, Mike
(2003)
Assessing the safety benefit of automatic collision avoidance systems.
In Proceedings of the 18th International Technical Conference on the Enhanced Safety of Vehicles (ESV).
National Highway Traffic Safety Administration.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Throughout the last decade a number of advanced system concepts for improving safety, efficiency, environmental compatibility and comfort of driving have emerged. One of these, Automatic Collision Avoidance Systems (ACAS) aims to help drivers to avoid accidents by alerting them to a potential collision and initiating braking. This paper assesses the safety effects of ACAS by examining driver response during emergency braking situations.
A series of emergency braking tests were undertaken on a test track. Six subjects (each with at least five years driving experience) were asked to follow a special ‘dummy’ vehicle and drive the TRG instrumented vehicle. The dummy vehicle, a lightweight trailer unit designed to withstand impacts safely, was then subjected to brake to a stop from three speed levels (60,45 and 30 mph) with decelerations which varied between 0.65g and 0.95g. The TRG instrumented vehicle enabled detailed information to be collected on driver responses such as relative speed, spacing distance, pedal movement, speed and deceleration levels.
The data analysis has showed that drivers are likely to initiate their braking before the time to collision (TTC) reaches 4 seconds. Consequently, an autonomous ACAS with a 4 seconds TTC threshold would not give warning that could help drivers reducing their response time.
Moreover, headway was found to be the main safety factor that ensures drivers would avoid
collision.
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Published date: 2003
Venue - Dates:
18th International Technical Conference on the Enhanced Safety of Vehicles (ESV), Nagoya, Japan, 2003-05-18 - 2003-05-21
Identifiers
Local EPrints ID: 75672
URI: http://eprints.soton.ac.uk/id/eprint/75672
PURE UUID: 97adfe9d-8a4b-4650-8bc0-51198c0050bb
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Date deposited: 11 Mar 2010
Last modified: 10 Dec 2021 16:58
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Contributors
Author:
Beshr Sultan
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