Verfügbarkeit: Vehicle handling dynamics :

Vehicle handling dynamics :: theory and application /

Vehicle dynamics are vital for optimizing a vehicle's drivability, efficiency, and safety. Understanding the forces and motions on a vehicle (both theoretical aspects, like basic equations of motion, and practical ones, like tire mechanics and human vehicle control) is integral in the design an...

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1. Verfasser:	Abe, M. (Masato) (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Amsterdam : Elsevier : BH, [2015]
Schlagworte:	Motor vehicles > Dynamics. Motor vehicles > Handling characteristics. Véhicules automobiles > Dynamique. Véhicules automobiles > Maniabilité. TECHNOLOGY & ENGINEERING > Engineering (General) Motor vehicles > Dynamics Motor vehicles > Handling characteristics Electronic book.
Online-Zugang:	Volltext
Zusammenfassung:	Vehicle dynamics are vital for optimizing a vehicle's drivability, efficiency, and safety. Understanding the forces and motions on a vehicle (both theoretical aspects, like basic equations of motion, and practical ones, like tire mechanics and human vehicle control) is integral in the design and development of all vehicles. Masato Abe's Vehicle Handling Dynamics, Second Edition, provides comprehensive coverage of vehicle dynamics, enabling readers to visualize and invent better vehicles. Vehicle Handling Dynamics begins with an overview of the fundamental theories of vehicle handling dynam.
Beschreibung:	1 online resource
ISBN:	9780081003732 0081003730

Internformat

MARC


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505	0		\|a Front Cover; Vehicle Handling Dynamics Theory and Application; Copyright; Contents; Preface; Preface to Second Edition; Symbols; CHAPTER 1 -- VEHICLE DYNAMICS AND CONTROL; 1.1 DEFINITION OF THE VEHICLE; 1.2 VIRTUAL FOUR-WHEEL VEHICLE MODEL; 1.3 CONTROL OF MOTION; CHAPTER 2 -- TIRE MECHANICS; 2.1 PREFACE; 2.2 TIRES PRODUCING LATERAL FORCE; 2.3 TIRE CORNERING CHARACTERISTICS; 2.4 TRACTION, BRAKING, AND CORNERING CHARACTERISTICS; 2.5 DYNAMIC CHARACTERISTICS; PROBLEMS; REFERENCES; CHAPTER 3 -- FUNDAMENTALS OF VEHICLE DYNAMICS; 3.1 PREFACE; 3.2 VEHICLE EQUATIONS OF MOTION.
505	8		\|a 3.3 vehicle steady-state cornering3.4 vehicle dynamic characteristics; problems; references; chapter 4 -- vehicle motion by disturbances; 4.1 preface; 4.2 motion by lateral force exerted on the center of gravity; 4.3 vehicle motion due to a lateral wind disturbance; 4.4 conclusion of vehicle motion by disturbances; problems; references; chapter 5 -- steering system and vehicle dynamics; 5.1 preface; 5.2 steering system model and equations of motion; 5.3 effects of steering system characteristics on vehicle motion; problems; references; chapter 6 -- vehicle body roll and vehicle dynamics.
505	8		\|a 6.1 preface6.2 roll geometry; 6.3 body roll and vehicle steer characteristics; 6.4 equations of motion inclusive of roll; 6.5 effect of steady-state body roll on vehicle dynamics; 6.6 effects of body roll on vehicle stability; problems; references; chapter 7 -- vehicle motion with traction and braking; 7.1 preface; 7.2 equations of motion inclusive of longitudinal motion; 7.3 vehicle quasi-steady-state cornering [1]; 7.4 vehicle transient steering response [2]; references; chapter 8 -- vehicle active motion controls; 8.1 preface; 8.2 vehicle motion with additional rear-wheel steering.
505	8		\|a 8.3 rear-wheel steering control for zero side-slip angle8.4 model following control by rear-wheel steering; 8.5 model following front-wheel active steering control; 8.6 front- and rear-wheel active steering control; 8.7 direct yaw-moment control; references; chapter 9 -- vehicle motion with all-wheel control; 9.1 preface; 9.2 tire force distribution; 9.3 effects of distribution control; 9.4 roll control integrated with tire force distribution control; 9.5 further development of all-wheel control; references; chapter 10 -- vehicle motion with human driver; 10.1 preface; 10.2 human control action.
505	8		\|a 10.3 vehicle motion under driver control10.4 human adaptation to vehicle characteristics and lane change behavior; problems; references; chapter 11 -- vehicle handling quality; 11.1 preface; 11.2 vehicle controllability; 11.3 vehicle motion characteristics and controllability; references; chapter 12 -- driver model-based handling quality evaluation; 12.1 preface; 12.2 driver model and parameter identification [1]; 12.3 driver parameters reflecting driver characteristics [1]; 12.4 driver parameters reflecting vehicle handling characteristics.
520			\|a Vehicle dynamics are vital for optimizing a vehicle's drivability, efficiency, and safety. Understanding the forces and motions on a vehicle (both theoretical aspects, like basic equations of motion, and practical ones, like tire mechanics and human vehicle control) is integral in the design and development of all vehicles. Masato Abe's Vehicle Handling Dynamics, Second Edition, provides comprehensive coverage of vehicle dynamics, enabling readers to visualize and invent better vehicles. Vehicle Handling Dynamics begins with an overview of the fundamental theories of vehicle handling dynam.
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650		7	\|a Motor vehicles \|x Handling characteristics \|2 fast
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Datensatz im Suchindex

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author	Abe, M. (Masato)
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contents	Front Cover; Vehicle Handling Dynamics Theory and Application; Copyright; Contents; Preface; Preface to Second Edition; Symbols; CHAPTER 1 -- VEHICLE DYNAMICS AND CONTROL; 1.1 DEFINITION OF THE VEHICLE; 1.2 VIRTUAL FOUR-WHEEL VEHICLE MODEL; 1.3 CONTROL OF MOTION; CHAPTER 2 -- TIRE MECHANICS; 2.1 PREFACE; 2.2 TIRES PRODUCING LATERAL FORCE; 2.3 TIRE CORNERING CHARACTERISTICS; 2.4 TRACTION, BRAKING, AND CORNERING CHARACTERISTICS; 2.5 DYNAMIC CHARACTERISTICS; PROBLEMS; REFERENCES; CHAPTER 3 -- FUNDAMENTALS OF VEHICLE DYNAMICS; 3.1 PREFACE; 3.2 VEHICLE EQUATIONS OF MOTION. 3.3 vehicle steady-state cornering3.4 vehicle dynamic characteristics; problems; references; chapter 4 -- vehicle motion by disturbances; 4.1 preface; 4.2 motion by lateral force exerted on the center of gravity; 4.3 vehicle motion due to a lateral wind disturbance; 4.4 conclusion of vehicle motion by disturbances; problems; references; chapter 5 -- steering system and vehicle dynamics; 5.1 preface; 5.2 steering system model and equations of motion; 5.3 effects of steering system characteristics on vehicle motion; problems; references; chapter 6 -- vehicle body roll and vehicle dynamics. 6.1 preface6.2 roll geometry; 6.3 body roll and vehicle steer characteristics; 6.4 equations of motion inclusive of roll; 6.5 effect of steady-state body roll on vehicle dynamics; 6.6 effects of body roll on vehicle stability; problems; references; chapter 7 -- vehicle motion with traction and braking; 7.1 preface; 7.2 equations of motion inclusive of longitudinal motion; 7.3 vehicle quasi-steady-state cornering [1]; 7.4 vehicle transient steering response [2]; references; chapter 8 -- vehicle active motion controls; 8.1 preface; 8.2 vehicle motion with additional rear-wheel steering. 8.3 rear-wheel steering control for zero side-slip angle8.4 model following control by rear-wheel steering; 8.5 model following front-wheel active steering control; 8.6 front- and rear-wheel active steering control; 8.7 direct yaw-moment control; references; chapter 9 -- vehicle motion with all-wheel control; 9.1 preface; 9.2 tire force distribution; 9.3 effects of distribution control; 9.4 roll control integrated with tire force distribution control; 9.5 further development of all-wheel control; references; chapter 10 -- vehicle motion with human driver; 10.1 preface; 10.2 human control action. 10.3 vehicle motion under driver control10.4 human adaptation to vehicle characteristics and lane change behavior; problems; references; chapter 11 -- vehicle handling quality; 11.1 preface; 11.2 vehicle controllability; 11.3 vehicle motion characteristics and controllability; references; chapter 12 -- driver model-based handling quality evaluation; 12.1 preface; 12.2 driver model and parameter identification [1]; 12.3 driver parameters reflecting driver characteristics [1]; 12.4 driver parameters reflecting vehicle handling characteristics.
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spelling	Abe, M. (Masato), author. https://id.oclc.org/worldcat/entity/E39PCjHW7pF7kRYFJyq9GYCmh3 http://id.loc.gov/authorities/names/no2004055417 Vehicle handling dynamics : theory and application / M. Abe. Amsterdam : Elsevier : BH, [2015] 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Vendor-supplied metadata. Front Cover; Vehicle Handling Dynamics Theory and Application; Copyright; Contents; Preface; Preface to Second Edition; Symbols; CHAPTER 1 -- VEHICLE DYNAMICS AND CONTROL; 1.1 DEFINITION OF THE VEHICLE; 1.2 VIRTUAL FOUR-WHEEL VEHICLE MODEL; 1.3 CONTROL OF MOTION; CHAPTER 2 -- TIRE MECHANICS; 2.1 PREFACE; 2.2 TIRES PRODUCING LATERAL FORCE; 2.3 TIRE CORNERING CHARACTERISTICS; 2.4 TRACTION, BRAKING, AND CORNERING CHARACTERISTICS; 2.5 DYNAMIC CHARACTERISTICS; PROBLEMS; REFERENCES; CHAPTER 3 -- FUNDAMENTALS OF VEHICLE DYNAMICS; 3.1 PREFACE; 3.2 VEHICLE EQUATIONS OF MOTION. 3.3 vehicle steady-state cornering3.4 vehicle dynamic characteristics; problems; references; chapter 4 -- vehicle motion by disturbances; 4.1 preface; 4.2 motion by lateral force exerted on the center of gravity; 4.3 vehicle motion due to a lateral wind disturbance; 4.4 conclusion of vehicle motion by disturbances; problems; references; chapter 5 -- steering system and vehicle dynamics; 5.1 preface; 5.2 steering system model and equations of motion; 5.3 effects of steering system characteristics on vehicle motion; problems; references; chapter 6 -- vehicle body roll and vehicle dynamics. 6.1 preface6.2 roll geometry; 6.3 body roll and vehicle steer characteristics; 6.4 equations of motion inclusive of roll; 6.5 effect of steady-state body roll on vehicle dynamics; 6.6 effects of body roll on vehicle stability; problems; references; chapter 7 -- vehicle motion with traction and braking; 7.1 preface; 7.2 equations of motion inclusive of longitudinal motion; 7.3 vehicle quasi-steady-state cornering [1]; 7.4 vehicle transient steering response [2]; references; chapter 8 -- vehicle active motion controls; 8.1 preface; 8.2 vehicle motion with additional rear-wheel steering. 8.3 rear-wheel steering control for zero side-slip angle8.4 model following control by rear-wheel steering; 8.5 model following front-wheel active steering control; 8.6 front- and rear-wheel active steering control; 8.7 direct yaw-moment control; references; chapter 9 -- vehicle motion with all-wheel control; 9.1 preface; 9.2 tire force distribution; 9.3 effects of distribution control; 9.4 roll control integrated with tire force distribution control; 9.5 further development of all-wheel control; references; chapter 10 -- vehicle motion with human driver; 10.1 preface; 10.2 human control action. 10.3 vehicle motion under driver control10.4 human adaptation to vehicle characteristics and lane change behavior; problems; references; chapter 11 -- vehicle handling quality; 11.1 preface; 11.2 vehicle controllability; 11.3 vehicle motion characteristics and controllability; references; chapter 12 -- driver model-based handling quality evaluation; 12.1 preface; 12.2 driver model and parameter identification [1]; 12.3 driver parameters reflecting driver characteristics [1]; 12.4 driver parameters reflecting vehicle handling characteristics. Vehicle dynamics are vital for optimizing a vehicle's drivability, efficiency, and safety. Understanding the forces and motions on a vehicle (both theoretical aspects, like basic equations of motion, and practical ones, like tire mechanics and human vehicle control) is integral in the design and development of all vehicles. Masato Abe's Vehicle Handling Dynamics, Second Edition, provides comprehensive coverage of vehicle dynamics, enabling readers to visualize and invent better vehicles. Vehicle Handling Dynamics begins with an overview of the fundamental theories of vehicle handling dynam. Motor vehicles Dynamics. http://id.loc.gov/authorities/subjects/sh85087605 Motor vehicles Handling characteristics. Véhicules automobiles Dynamique. Véhicules automobiles Maniabilité. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Motor vehicles Dynamics fast Motor vehicles Handling characteristics fast Electronic book. Print version: Abe, Masato. Vehicle Handling Dynamics : Theory and Application. Burlington : Elsevier Science, ©2015 9780081003909 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=981415 Volltext
spellingShingle	Abe, M. (Masato) Vehicle handling dynamics : theory and application / Front Cover; Vehicle Handling Dynamics Theory and Application; Copyright; Contents; Preface; Preface to Second Edition; Symbols; CHAPTER 1 -- VEHICLE DYNAMICS AND CONTROL; 1.1 DEFINITION OF THE VEHICLE; 1.2 VIRTUAL FOUR-WHEEL VEHICLE MODEL; 1.3 CONTROL OF MOTION; CHAPTER 2 -- TIRE MECHANICS; 2.1 PREFACE; 2.2 TIRES PRODUCING LATERAL FORCE; 2.3 TIRE CORNERING CHARACTERISTICS; 2.4 TRACTION, BRAKING, AND CORNERING CHARACTERISTICS; 2.5 DYNAMIC CHARACTERISTICS; PROBLEMS; REFERENCES; CHAPTER 3 -- FUNDAMENTALS OF VEHICLE DYNAMICS; 3.1 PREFACE; 3.2 VEHICLE EQUATIONS OF MOTION. 3.3 vehicle steady-state cornering3.4 vehicle dynamic characteristics; problems; references; chapter 4 -- vehicle motion by disturbances; 4.1 preface; 4.2 motion by lateral force exerted on the center of gravity; 4.3 vehicle motion due to a lateral wind disturbance; 4.4 conclusion of vehicle motion by disturbances; problems; references; chapter 5 -- steering system and vehicle dynamics; 5.1 preface; 5.2 steering system model and equations of motion; 5.3 effects of steering system characteristics on vehicle motion; problems; references; chapter 6 -- vehicle body roll and vehicle dynamics. 6.1 preface6.2 roll geometry; 6.3 body roll and vehicle steer characteristics; 6.4 equations of motion inclusive of roll; 6.5 effect of steady-state body roll on vehicle dynamics; 6.6 effects of body roll on vehicle stability; problems; references; chapter 7 -- vehicle motion with traction and braking; 7.1 preface; 7.2 equations of motion inclusive of longitudinal motion; 7.3 vehicle quasi-steady-state cornering [1]; 7.4 vehicle transient steering response [2]; references; chapter 8 -- vehicle active motion controls; 8.1 preface; 8.2 vehicle motion with additional rear-wheel steering. 8.3 rear-wheel steering control for zero side-slip angle8.4 model following control by rear-wheel steering; 8.5 model following front-wheel active steering control; 8.6 front- and rear-wheel active steering control; 8.7 direct yaw-moment control; references; chapter 9 -- vehicle motion with all-wheel control; 9.1 preface; 9.2 tire force distribution; 9.3 effects of distribution control; 9.4 roll control integrated with tire force distribution control; 9.5 further development of all-wheel control; references; chapter 10 -- vehicle motion with human driver; 10.1 preface; 10.2 human control action. 10.3 vehicle motion under driver control10.4 human adaptation to vehicle characteristics and lane change behavior; problems; references; chapter 11 -- vehicle handling quality; 11.1 preface; 11.2 vehicle controllability; 11.3 vehicle motion characteristics and controllability; references; chapter 12 -- driver model-based handling quality evaluation; 12.1 preface; 12.2 driver model and parameter identification [1]; 12.3 driver parameters reflecting driver characteristics [1]; 12.4 driver parameters reflecting vehicle handling characteristics. Motor vehicles Dynamics. http://id.loc.gov/authorities/subjects/sh85087605 Motor vehicles Handling characteristics. Véhicules automobiles Dynamique. Véhicules automobiles Maniabilité. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Motor vehicles Dynamics fast Motor vehicles Handling characteristics fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85087605
title	Vehicle handling dynamics : theory and application /
title_auth	Vehicle handling dynamics : theory and application /
title_exact_search	Vehicle handling dynamics : theory and application /
title_full	Vehicle handling dynamics : theory and application / M. Abe.
title_fullStr	Vehicle handling dynamics : theory and application / M. Abe.
title_full_unstemmed	Vehicle handling dynamics : theory and application / M. Abe.
title_short	Vehicle handling dynamics :
title_sort	vehicle handling dynamics theory and application
title_sub	theory and application /
topic	Motor vehicles Dynamics. http://id.loc.gov/authorities/subjects/sh85087605 Motor vehicles Handling characteristics. Véhicules automobiles Dynamique. Véhicules automobiles Maniabilité. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh Motor vehicles Dynamics fast Motor vehicles Handling characteristics fast
topic_facet	Motor vehicles Dynamics. Motor vehicles Handling characteristics. Véhicules automobiles Dynamique. Véhicules automobiles Maniabilité. TECHNOLOGY & ENGINEERING Engineering (General) Motor vehicles Dynamics Motor vehicles Handling characteristics Electronic book.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=981415
work_keys_str_mv	AT abem vehiclehandlingdynamicstheoryandapplication

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