Assessment of the Stop and Go function using real driving behaviour
Assessment of the Stop and Go function using real driving behaviour
The paper reports on initial findings concerning the assessment and design of the Stop-and-Go ADAS (Advanced Driver Assistance Systems) functionality, which allows low speed distance keeping between successive vehicles. The work is part of the Motorway Operations project being undertaken in the UK, dealing with understanding driver behaviour, and assessing and designing existing and new types of ADAS. The research presented examines the suitability of current Stop-and-Go control algorithms by undertaking a comparison between output from a micro-simulation model and time series data collected using an instrumented vehicle deployed during rush hour on the A35 in Southampton in the UK. The paper focuses on the impact of differing acceleration/deceleration policies, as well as examining how the algorithm copes with the sharp decelerations required during shockwaves. The paper concludes that unassisted drivers react earlier than the current algorithm, perhaps due to anticipation. More complex algorithms may need to be applied to match human performance in the complex low speed environment
0852967438
76-80
Marsden, G.
9057149d-3003-4886-b1f0-9a7f757d60e2
Brackstone, M.A.
ec944365-2b0a-4f67-b331-936750d9d383
McDonald, M.
cd5b31ba-276b-41a5-879c-82bf6014db9f
September 2001
Marsden, G.
9057149d-3003-4886-b1f0-9a7f757d60e2
Brackstone, M.A.
ec944365-2b0a-4f67-b331-936750d9d383
McDonald, M.
cd5b31ba-276b-41a5-879c-82bf6014db9f
Marsden, G., Brackstone, M.A. and McDonald, M.
(2001)
Assessment of the Stop and Go function using real driving behaviour.
In International Conference on Advanced Driver Assistance Systems, (ADAS 2001).
IEEE Press.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The paper reports on initial findings concerning the assessment and design of the Stop-and-Go ADAS (Advanced Driver Assistance Systems) functionality, which allows low speed distance keeping between successive vehicles. The work is part of the Motorway Operations project being undertaken in the UK, dealing with understanding driver behaviour, and assessing and designing existing and new types of ADAS. The research presented examines the suitability of current Stop-and-Go control algorithms by undertaking a comparison between output from a micro-simulation model and time series data collected using an instrumented vehicle deployed during rush hour on the A35 in Southampton in the UK. The paper focuses on the impact of differing acceleration/deceleration policies, as well as examining how the algorithm copes with the sharp decelerations required during shockwaves. The paper concludes that unassisted drivers react earlier than the current algorithm, perhaps due to anticipation. More complex algorithms may need to be applied to match human performance in the complex low speed environment
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Published date: September 2001
Additional Information:
ISSN: 0537-9989
Venue - Dates:
Proceedings of the Advanced Driver Assistance Systems ADAS 2001 Conference, Birmingham, UK, 2001-09-16 - 2001-09-17
Identifiers
Local EPrints ID: 53994
URI: http://eprints.soton.ac.uk/id/eprint/53994
ISBN: 0852967438
PURE UUID: fcde2ace-fd75-432e-a323-8a873fea2fff
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Date deposited: 06 Aug 2008
Last modified: 08 Jan 2022 13:03
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Contributors
Author:
G. Marsden
Author:
M.A. Brackstone
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