04383nam 2200709 450 991014018670332120200520144314.01-118-64863-31-118-64864-11-118-64865-X(CKB)2670000000494158(EBL)1575625(SSID)ssj0001173749(PQKBManifestationID)11672683(PQKBTitleCode)TC0001173749(PQKBWorkID)11106225(PQKB)11323183(MiAaPQ)EBC1575625(Au-PeEL)EBL1575625(CaPaEBR)ebr10814439(CaONFJC)MIL550372(OCoLC)865333409(EXLCZ)99267000000049415820131211d2013 uy 0engur|n|---|||||txtccrDriving simulation /Hichem Arioui, Lamri NehaouaHoboken, New Jersey :Wiley,2013.©20131 online resource (154 p.)Focus series"Automation and control"--cover.1-84821-467-7 Includes bibliographical references and index.Cover; Title page; Contents; ACKNOWLEDGMENTS; INTRODUCTION; CHAPTER 1. DRIVING SIMULATION; 1.1. Objectives of driving simulation; 1.2. A short history of driving simulators; 1.2.1. Fixed-base platforms; 1.2.2. Platforms with a serial structure; 1.2.3. Platforms with parallel structure; 1.2.4. Hybrid structured platforms; 1.2.5. "Low-cost" generation; 1.3. Driving simulation objectives; CHAPTER 2. ARCHITECTURE OF DRIVING SIMULATORS; 2.1. Architecture of driving simulators; 2.2. Motion cueing and haptic feedback; 2.2.1. The human motion perception system; 2.2.2. Mathematical description2.2.3. Motion cueing algorithm2.3. The evolution of simulators: from the automobile to the motorcycle; 2.3.1. Honda simulators; 2.3.2. Tokyo university simulator; 2.3.3. MORIS simulator; 2.3.4. SafeBike simulator; 2.3.5. Bicycle simulator - Kaist; 2.3.6. Discussion; CHAPTER 3. DYNAMICS OF TWO-WHEELED VEHICLES; 3.1. Modeling aspect; 3.1.1. Vehicle motion; 3.1.2. Road-tire interface; 3.1.3. Direction system; 3.1.4. Suspensions; 3.1.5. Motorization and traction chain; 3.2. The literature on existing models; 3.2.1. Models of the automobile; 3.2.2. Two-wheeled vehicle models3.3. Dynamic behavior of automobiles3.4. 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; 4.3.1. Description of the simulation loop; 4.3.2. Platform instrumentation; 4.3.3. Sequencing and synchronization; 4.4. Specification of the simulator; 4.4.1. Inverse kinematic of the simulator platform; 4.4.2. Dynamic modeling of the platform; 4.4.3. Identification4.5. Multi-sensory integration: washout and force feedback4.5.1. Localization of the washout; BIBLIOGRAPHY; INDEXPassive 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 provenefficient, 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 ofFocus series (London, England)MotorcyclingMotor vehiclesSafety measuresAutomobile driving simulatorsSynthetic training devicesMotorcycling.Motor vehiclesSafety measures.Automobile driving simulators.Synthetic training devices.629.28Arioui Hichem936557Nehaoua Lamri936558John Wiley & Sons,MiAaPQMiAaPQMiAaPQBOOK9910140186703321Driving simulation2109631UNINA