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- Herausgeber: John Wiley & Sons
- Kategorie: Fachliteratur
- Sprache: Englisch
Passive and active safety systems (ABS, ESP, safety belts, airbags, etc.) represent a major advance in terms of safety in motoring. They are increasingly developed and installed in cars and are beginning to appear in twowheelers. It is clear that these systems have proven efficient, although there is no information about their actual operation by current users.
The authors of this book present a state of the art on safety systems and assistance to driving and their two-wheeled counterparts. The main components constituting a driving simulator are described, followed by a classification of robotic architectures. Then, a literature review on driving simulators and two-wheeled vehicles is presented. The aim of the book is to point out the differences of perspectives between motor vehicles and motorcycles to identify relevant indicators to help in choosing the mechanical architecture of the motorcycle simulator and appropriate controls.
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Seitenzahl: 158
Veröffentlichungsjahr: 2013
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Contents
Acknowledgments
Introduction
Chapter 1: Driving Simulation
1.1. Objectives of driving simulation
1.2. A short history of driving simulators
1.3. Driving simulation objectives
Chapter 2: Architecture of Driving Simulators
2.1. Architecture of driving simulators
2.2. Motion cueing and haptic feedback
2.3. The evolution of simulators: from the automobile to the motorcycle
Chapter 3: Dynamics of Two-Wheeled Vehicles
3.1. Modeling aspect
3.2. The literature on existing models
3.3. Dynamic behavior of automobiles
3.4. Dynamic behavior of two-wheeled vehicles
3.5. Summary
Chapter 4: Two-Wheeled Riding Simulator: From Design to Control
4.1. Introduction
4.2. The design and mechanical aspects of the simulator
4.3. The mechatronics of the simulator
4.4. Specification of the simulator
4.5. Multi-sensory integration: washout and force feedback
Bibliography
Index
First published 2013 in Great Britain and the United States by ISTE Ltd and John Wiley & Sons, Inc.
Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms and licenses issued by the CLA. Enquiries concerning reproduction outside these terms should be sent to the publishers at the undermentioned address:
ISTE Ltd27-37 St George’s RoadLondon SW19 4EUUK
John Wiley & Sons, Inc.111 River StreetHoboken, NJ 07030USA
www.iste.co.uk
www.wiley.com
© ISTE Ltd 2013
The rights of Hichem Arioui and Lamri Nehaoua to be identified as the author of this work have been asserted by them in accordance with the Copyright, Designs and Patents Act 1988.
Library of Congress Control Number: 2013948545
British Library Cataloguing-in-Publication Data
A CIP record for this book is available from the British Library
ISSN: 2051-2481 (Print)
ISSN: 2051-249X (Online)
ISBN: 978-1-84821-467-5
Acknowledgments
This humble contribution would not have been accomplished without the support of many people: our professors, colleagues and students. We owe a huge debt of gratitude to Abderrahmane Kheddar (supervisor and mentor of the authors), Stéphane Espié (long-time collaborator) and Pierre Gauriat who had the pleasure of introducing us, at the beginning of the millennium, to this rich topic of driving simulation. They have given us the most fascinating moments of our research careers.
Over recent years, without the hard work of our students, the book would have never come to light. We emphasize, in particular, and with gratitude, those who worked with us on the driving simulation, in chronological order: Mohellebi Hakim, Fabrice Vienne, Amouri Ali, Nicolas Séguy, Salim Hima, René Bertin, Hocine Imine, Said Mammar and Stéphane Caro. Indeed, all these people will find several aspects of this book familiar, which is a direct result of their research works both with us and through their own research programs. We have great memories of everybody and we are very grateful.
We would also like to thank the University of Evry Val d’Essonne, IBISC and IFSTTAR laboratories, and the National Research Agency (ANR) for their continued support.
Throughout many years of professional enterprise, which requires daily commitment, our families have suffered. We wish to express our gratitude to them for their continuous support and patience.
Introduction
I.1. Motorcycles versus Formation
Powered two-wheeled vehicles (PTWVs) are becoming an increasingly desirable traveling option, particularly due to their ability to avoid traffic congestion. However, PTWVs today remain a particularly dangerous means of transportation, which places their users at high risk.
The statistics of motorcycle accidents spanning over several years show that the users of two-wheeled motorized vehicles are among the most vulnerable in traffic: in France, there have been 1,000 – 1,600 deaths per year over the past 20 years, with an increase of 10% in 2009. According to the latest statistics, the number of fatalities amongst motorcyclists has decreased very slowly, whereas in the case of car drivers there has been significant progress. Consequently, the risk of being killed in an accident is 20 times higher for a motorcyclist than it is for a driver of a passenger car.
Several research groups have tackled this issue, having different objectives: (1) proposing several advanced rider assistance systems (ARAS) for new drivers and (2) implementing preventive aiding systems for motorcycle riders, which could improve the safety of motorcyclists before the dangerous situations actually occur. These dangerous situations may include poor assessment of turning speed, loss of control, excessive speed, loss of tire friction or skidding, and untimely braking.
These accident-prone factors are more or less frequent and/or serious, depending on the skill set of the riders. Over the past 5 years, the French National Interdepartmental Observatory on Road Safety has carried out a piece of research, revealing worrying statistics in terms of road traffic accident analysis on new riders. Every year, 680,000 people become “new drivers”, on average. In 2009, 8.9% of the population were young people aged between 18 and 24 years old, and they represented 21.1% of deaths caused by road traffic accidents in the same year. On average, each week, 17 young people are killed and 264 are hurt, of which 149 are seriously injured. Young people aged between 18 and 24 years have a three times greater chance of being involved in a driving accident than people aged between 45 and 64 years. The accident of a young person costs the community, on average, 1,400,000 euros per death. What is more, the actions following obtaining a driving license, such as training courses or assessment meetings, have lowered the accident rate of new drivers by 7%.
The decrease in the accident rate of two-wheeled vehicle riders is, however, very small compared to that of other road users. Although there are several reasons for explaining this, we can perceive two main reasons:
The lack of training can be compensated for by diversifying motorcycle driving tests, by confronting, for example, the motorcyclist with several more or less dangerous driving situations. These scenarios will improve the reflex of the rider and, consequently, their experience. Unfortunately, it is very difficult, and even dangerous, for beginners to try to predict these scenarios during their tests or in their exam periods. Implementing a training and awareness-raising tool for riders, thus allowing research to be carried out on their behavior in the middle of road traffic, is therefore a major challenge in terms of road safety.
I.2. Motorcycle road accident analysis
PTWVs are an increasingly desirable means of transportation, particularly due to their ability to avoid traffic congestion. Despite a general drop in the accident rate, PTWVs remain a particularly dangerous means of transportation, which makes their users highly vulnerable. In France, the number of PTWV riders who are victims of accidents represents more than 23% of the total deaths (15% for all of Europe) and 40% of the total number injured (statistics given in 2010 by the French National Interdepartmental Observatory on Road Safety), taking into consideration that these vehicles represent 1.5% of the total road traffic, in terms of the number of kilometers covered, according to the same report. The chance of being killed is thus 14 people per 100 million persons-kilometers, or 21 times higher than in a car. Moreover, the chance of becoming the victim of serious injuries that will later cause a disability is also 50 times higher.
Despite the awareness-raising campaigns and the measures that have been taken over the past few years, the situation of the PTWV continues to worsen. In 2009, in fact, we saw an increase in fatal accidents in France (+10%), despite the fact that at the same time the number of people killed in traffic accidents had decreased by 4%. These alarming statistics prove the need for research on the origin of this kind of lack of safety. Indeed, we must consider that the PTWV is a special category among road vehicles, characterized by a specific, dynamic behavior, which is constantly on the brink of instability. Their gauge and performances bring about specific interaction difficulties with the other road users. In the following, we will present an non-exhaustive list of the main factors involved in the PTWV accidents:
– Speed limit and accident rate: even if there has been a decline in the accident rate since 2005, exceeding the speed limit is extremely common behavior on the road. All networks considered, more than 40% of automobile drivers, 50% of truck drivers and 60% of motorcyclists are affected by it.
Chapter 1
Driving Simulation
1.1. Objectives of driving simulation
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