Results 291 to 300 of about 700,644 (352)
Dynamics and Model-Predictive Anti-Jerk Control of Connected Electric Vehicles
, 2018 Mohit Batra
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Journal of Terramechanics, 1992
Abstract The consistent theme running through the Vehicle Dynamics—Steering sessions at the 1990 ISTVS Conference was more sophisticated analysis applied to off-road vehicle problems. Of particular note was the gradual progress being made with improvements to the modelling of tracked vehicle steering, including some promising work by Ehlert et al ...
D.A. Crolla, H. Schwanghart
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Abstract The consistent theme running through the Vehicle Dynamics—Steering sessions at the 1990 ISTVS Conference was more sophisticated analysis applied to off-road vehicle problems. Of particular note was the gradual progress being made with improvements to the modelling of tracked vehicle steering, including some promising work by Ehlert et al ...
D.A. Crolla, H. Schwanghart
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Hyperballistic Vehicle Dynamics
Journal of Spacecraft and Rockets, 1981An earlier developed embedded Newtonian theory for prediction of the unsteady aerodynamics of hemisphere-cylinder-flare bodies has been extended to other hyperballistic geometries of general interest. Using generalized embedded Newtonian theory, the effect of Mach number is accounted for down to moderate supersonic speeds.
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2022
Author Daniel E. Williams, an industry professional with more 30 years of experience in chassis control systems from concept to launch, brings this experience and his unique approach to readers of Generalized Vehicle Dynamics. This book makes use of nomenclature and conventions not used in other texts. This combination allows the derivation of complex
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Author Daniel E. Williams, an industry professional with more 30 years of experience in chassis control systems from concept to launch, brings this experience and his unique approach to readers of Generalized Vehicle Dynamics. This book makes use of nomenclature and conventions not used in other texts. This combination allows the derivation of complex
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2008
In this chapter, we develop a dynamic model for a rigid bicycle vehicle having forward, lateral, yaw, and roll motions. The model of a rollable rigid vehicle is more exact and more effective compared to the rigid bicycle vehicle planar model. Using this model, we are able to analyze the roll behavior of a vehicle as well as its maneuvering.
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In this chapter, we develop a dynamic model for a rigid bicycle vehicle having forward, lateral, yaw, and roll motions. The model of a rollable rigid vehicle is more exact and more effective compared to the rigid bicycle vehicle planar model. Using this model, we are able to analyze the roll behavior of a vehicle as well as its maneuvering.
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Basics of Vehicle Dynamics, Vehicle Models
2018For the understanding and knowledge of the dynamic behaviour of passenger cars it is essential to use simple mechanical models as a first step. With such kind of models overall characteristic properties of the vehicle motion can be investigated. For cornering, a planar two-wheel model helps to explain understeer–oversteer, stability and steering ...
Peter Lugner, Johannes Edelmann
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2022
<div class="section abstract"> <div class="htmlview paragraph">The vehicle dynamics terminology presented herein pertains to passenger cars and light trucks with two axles and to those vehicles pulling single-axle trailers. The terminology presents symbols and definitions covering the following subjects: axis systems, vehicle bodies ...
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<div class="section abstract"> <div class="htmlview paragraph">The vehicle dynamics terminology presented herein pertains to passenger cars and light trucks with two axles and to those vehicles pulling single-axle trailers. The terminology presents symbols and definitions covering the following subjects: axis systems, vehicle bodies ...
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2020
Road Vehicle Dynamics: Fundamentals and Modeling with MATLAB®, Second Edition combines coverage of vehicle dynamics concepts with MATLAB v9.4 programming routines and results, along with examples and numerous chapter exercises. Improved and updated, the revised text offers new coverage of active safety systems, rear wheel steering, race car suspension ...
Georg Rill, Abel Arrieta Castro
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Road Vehicle Dynamics: Fundamentals and Modeling with MATLAB®, Second Edition combines coverage of vehicle dynamics concepts with MATLAB v9.4 programming routines and results, along with examples and numerous chapter exercises. Improved and updated, the revised text offers new coverage of active safety systems, rear wheel steering, race car suspension ...
Georg Rill, Abel Arrieta Castro
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2008
Straight motion of an ideal rigid vehicle is the subject of this chapter. We ignore air friction and examine the load variation under the tires to determine the vehicle’s limits of acceleration, road grade, and kinematic capabilities.
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Straight motion of an ideal rigid vehicle is the subject of this chapter. We ignore air friction and examine the load variation under the tires to determine the vehicle’s limits of acceleration, road grade, and kinematic capabilities.
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