This study investigated the dynamics and control of a nonlinear suspension system using a quarter-car model that is forced by the road profile. Bifurcation analysis used to characterize nonlinear dynamic behavior revealed codimension-two bifurcation and homoclinic orbits. The nonlinear dynamics were determined using bifurcation diagrams, phase portraits, Poincaré maps, frequency spectra, and Lyapunov exponents. The Lyapunov exponent was used to identify the onset of chaotic motion. Finally, state feedback control was used to prevent chaotic motion. The effectiveness of the proposed control method was determined via numerical simulations
The purpose of this paper is to investigate the performance of a quarter car nonlinear active suspen...
Vehicle handling, stability, and bifurcation of equilibrium conditions were studied using a state ve...
The paper contributes to unveil how drivers-either human or not-may lose control of road vehicles af...
This paper examines dynamical behavior of a nonlinear oscillator which models a quarter-car forced b...
The stability of the straight ahead running motion of automobiles is studied with proper theoretical...
AbstractThe present work investigates the chaotic responses of a nonlinear seven degree-of-freedom g...
When vehicles are driven on consecutive speed control humps, the parameters of speed control humps s...
In this paper, the stability of vehicle concerning the slow-varying sprung mass is analyzed based on...
The bifurcation analysis of a simple mathematical model describing a road vehicle with a driver is ...
The present work investigates the nonlinear response of a half-car model. The disturbances of the ro...
This paper is aimed at analyzing the chaotic vibration of a vehicle passing the consecutive speed co...
In this article, the problems of dynamics and stability for vehicle planar motion systems have been ...
Stability of land vehicle motions consisting of yaw, sideslip, and roll motion of the sprung mass is...
The paper deals with the bifurcation analysis of a rather simple model describing an automobile nego...
Abstract Chaos is harmful for a nonlinear mechanical system. For a vehicle, chaotic vibrations may l...
The purpose of this paper is to investigate the performance of a quarter car nonlinear active suspen...
Vehicle handling, stability, and bifurcation of equilibrium conditions were studied using a state ve...
The paper contributes to unveil how drivers-either human or not-may lose control of road vehicles af...
This paper examines dynamical behavior of a nonlinear oscillator which models a quarter-car forced b...
The stability of the straight ahead running motion of automobiles is studied with proper theoretical...
AbstractThe present work investigates the chaotic responses of a nonlinear seven degree-of-freedom g...
When vehicles are driven on consecutive speed control humps, the parameters of speed control humps s...
In this paper, the stability of vehicle concerning the slow-varying sprung mass is analyzed based on...
The bifurcation analysis of a simple mathematical model describing a road vehicle with a driver is ...
The present work investigates the nonlinear response of a half-car model. The disturbances of the ro...
This paper is aimed at analyzing the chaotic vibration of a vehicle passing the consecutive speed co...
In this article, the problems of dynamics and stability for vehicle planar motion systems have been ...
Stability of land vehicle motions consisting of yaw, sideslip, and roll motion of the sprung mass is...
The paper deals with the bifurcation analysis of a rather simple model describing an automobile nego...
Abstract Chaos is harmful for a nonlinear mechanical system. For a vehicle, chaotic vibrations may l...
The purpose of this paper is to investigate the performance of a quarter car nonlinear active suspen...
Vehicle handling, stability, and bifurcation of equilibrium conditions were studied using a state ve...
The paper contributes to unveil how drivers-either human or not-may lose control of road vehicles af...