Towards an understanding of adaptive cruise control
Towards an understanding of adaptive cruise control
Adaptive cruise control (ACC) provides assistance to the driver in the task of longitudinal control of their vehicle during motorway driving. The system controls the accelerator, engine powertrain and vehicle brakes to maintain a desired time-gap to the vehicle ahead. This research describes the results of a detailed microscopic simulation investigation into the potential impacts of ACC on motorway driving. In addition to simulation, real vehicle driving profiles, obtained from instrumented vehicle experiments in three European countries, have been used to compare real following behaviour with that of a simulated ACC equipped vehicle. This new approach has shown that following with an ACC system can provide considerable reductions in the variation of acceleration compared to manual driving. This indicates a potential comfort gain for the driver and environmental benefits. A number of critical situations in which ACC does not perform well have also been identified. The research also highlights the limitations of microscopic simulation in modelling the impacts of ACC because of the lack of understanding of the interaction between the driver and the ACC system relative to the traffic conditions.
adaptive cruise control, instrumented vehicle, driver behaviour
33-51
Marsden, G.R.
3624ec46-c06b-4f07-82da-4f301c36dfee
McDonald, M.
81d8ff0b-d137-40c7-881d-1edb74ba8209
Brackstone, M.A.
ec944365-2b0a-4f67-b331-936750d9d383
2001
Marsden, G.R.
3624ec46-c06b-4f07-82da-4f301c36dfee
McDonald, M.
81d8ff0b-d137-40c7-881d-1edb74ba8209
Brackstone, M.A.
ec944365-2b0a-4f67-b331-936750d9d383
Marsden, G.R., McDonald, M. and Brackstone, M.A.
(2001)
Towards an understanding of adaptive cruise control.
Transportation Research Part C: Emerging Technologies, 9 (1), .
(doi:10.1016/S0968-090X(00)00022-X).
Abstract
Adaptive cruise control (ACC) provides assistance to the driver in the task of longitudinal control of their vehicle during motorway driving. The system controls the accelerator, engine powertrain and vehicle brakes to maintain a desired time-gap to the vehicle ahead. This research describes the results of a detailed microscopic simulation investigation into the potential impacts of ACC on motorway driving. In addition to simulation, real vehicle driving profiles, obtained from instrumented vehicle experiments in three European countries, have been used to compare real following behaviour with that of a simulated ACC equipped vehicle. This new approach has shown that following with an ACC system can provide considerable reductions in the variation of acceleration compared to manual driving. This indicates a potential comfort gain for the driver and environmental benefits. A number of critical situations in which ACC does not perform well have also been identified. The research also highlights the limitations of microscopic simulation in modelling the impacts of ACC because of the lack of understanding of the interaction between the driver and the ACC system relative to the traffic conditions.
This record has no associated files available for download.
More information
Published date: 2001
Keywords:
adaptive cruise control, instrumented vehicle, driver behaviour
Identifiers
Local EPrints ID: 39391
URI: http://eprints.soton.ac.uk/id/eprint/39391
ISSN: 0968-090X
PURE UUID: ed8502d0-b8e8-4e5f-8f0b-106642692bd4
Catalogue record
Date deposited: 28 Jun 2006
Last modified: 15 Mar 2024 08:13
Export record
Altmetrics
Contributors
Author:
G.R. Marsden
Author:
M. McDonald
Author:
M.A. Brackstone
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics