Authors:
Chunshi Guo, Chouki Sentouh, Jean-Christophe Popieul, Jean-Baptiste Haue, Sabine Langlois, Jean-Jacques Loeillet, Boussaad Soualmi, Thomas Nguyen
Keywords:
automated driving, cooperation principle, use case analysis, HMI, scenario modelling
Abstract:
Driver-vehicle cooperation offers an opportunity to improve the driving performance through the exploitation of human-automation synergy. This paper describes the implementation and the evaluation of a new cooperation principle between driver and Automated Driving (AD) system. In the framework of a use case on highway merging section, we discussed the scenario modelling, system functional and HMI design. A simulator experiment with 22 participants was performed. Positive preliminary results on the utility of the principle and issues of HMI are discussed. Through this paper, we also aim to demonstrate the strengths of driving simulation techniques in terms of functional design and human factor studies on AD technologies.
Guo C.; Sentouh C.; Popieul J.-C.; Haue J.-B.; Langlois S.; Loeillet J.-J.; Soualmi B. and Nguyen T. Cooperation between Driver and Automated Driving System: Implementation and Evaluation In: Proceedings of the Driving Simulation Conference 2016 Europe, Driving Simulation Association, Paris, France, 2016, pp. 111-118
Download .txt file
@inproceedings{Guo2016,
title = {Cooperation between Driver and Automated Driving System: Implementation and Evaluation},
author = {Chunshi Guo and Chouki Sentouh and Jean-Christophe Popieul and Jean-Baptiste Haue and Sabine Langlois and Jean-Jacques Loeillet and Boussaad Soualmi and Thomas Nguyen},
editor = {Andras Kemeny and Frédéric Merienne and Florent Colombet and Stéphane Espié},
issn = {0769-0266},
year = {2016},
date = {2016-09-07},
booktitle = {Proceedings of the Driving Simulation Conference 2016 Europe},
pages = {111-118},
address = {Paris, France},
organization = {Driving Simulation Association},
abstract = {Driver-vehicle cooperation offers an opportunity to improve the driving performance through the exploitation of human-automation synergy. This paper describes the implementation and the evaluation of a new cooperation principle between driver and Automated Driving (AD) system. In the framework of a use case on highway merging section, we discussed the scenario modelling, system functional and HMI design. A simulator experiment with 22 participants was performed. Positive preliminary results on the utility of the principle and issues of HMI are discussed. Through this paper, we also aim to demonstrate the strengths of driving simulation techniques in terms of functional design and human factor studies on AD technologies.},
keywords = {automated driving, cooperation principle, HMI, scenario modelling, use case analysis},
}
Download .bib file
TY - CONF
TI - Cooperation between Driver and Automated Driving System: Implementation and Evaluation
AU - Guo, Chunshi
AU - Sentouh, Chouki
AU - Popieul, Jean-Christophe
AU - Haue, Jean-Baptiste
AU - Langlois, Sabine
AU - Loeillet, Jean-Jacques
AU - Soualmi, Boussaad
AU - Nguyen, Thomas
C1 - Paris, France
C3 - Proceedings of the Driving Simulation Conference 2016 Europe
DA - 2016/09/07
PY - 2016
SP - 111
EP - 118
LA - en-US
PB - Driving Simulation Association
SN - 0769-0266
L2 - https://proceedings.driving-simulation.org/proceeding/dsc-2016/cooperation-between-driver-and-automated-driving-system-implementation-and-evaluation
ER -
Download .ris file
Cite this article
Copyright by the authors.
Licensee Driving Simulation Association.
Terms and Conditions for Downloading Driving Simulation Proceedings papers:
By downloading a scientific paper from proceedings.driving-simulation.org, you agree to the following terms and conditions:
- Copyright and Ownership:
The scientific paper is protected by copyright laws and is the intellectual property of the respective authors and publishers. All rights not expressly granted herein are reserved.
- Citation and Attribution:
If you use the scientific paper for research, presentations, or any other non-commercial purposes, you must provide appropriate citation and attribution to the original authors as per academic standards.
- Creative Commons:
This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
- Disclaimer:
The Driving Simulation Association makes no representations or warranties regarding the accuracy, completeness, or suitability of the scientific paper for any particular purpose. The paper is provided as-is, without any warranties, express or implied. The Driving Simulation Association reserves the right to terminate or restrict access to the scientific paper at any time and without notice.