This paper presents the design, analysis, and experimental validation of the passive case of a variable stiffness suspension system. The central concept is based on a recently designed variable stiffness mechanism. It consists of a horizontal control strut and a vertical strut. The main idea is to vary the load transfer ratio by moving the location of the point of attachment of the vertical strut to the car body. This movement is controlled passively using the horizontal strut. The system is analyzed using an L2-gain analysis based on the concept of energy dissipation. The analyses, simulation, and experimental results show that the variable stiffness suspension achieves better performance than the constant stiffness counterpart. The perfor...
Vehicle suspension system plays important role in maintaining constant contact of the wheels with th...
In this paper, a methodology for the design and evaluation of a slow-active vehicle suspension syste...
Abstract—A new family of electro-mechanical active suspen-sions that offers significant advantages w...
A theoretical analysis of a new proposed variable stiffness model of the suspension system is studi...
Passive shock absorbers are designed for standard load condition. These give better vibration isolat...
Active and semi-active suspension systems are widely diffused into the automotive industry. Most of ...
The use of actuators in vehicle suspensions is not very com-mon. When looking at passenger cars, it ...
This paper investigates a systems approach to suspension design for passive and active suspensions. ...
The design of existing suspension systems typically involves a compromise solution for the conflicti...
Suspension systems are designed for the increase in comfort and stability in vehicles while driving....
The problem considered in this paper is the study and the control strategy design of semi-active sus...
This article proposes a new adaptive control algorithm for active suspension systems of passenger ca...
Handling of heavy vehicles such as tractors, trucks and buses require a large roll stiffness which c...
The purpose of this project is to design and simulate a semi-active suspension system for a quarter ...
The purpose of this paper is to enhance a passive suspension system with an electro-mechanical devic...
Vehicle suspension system plays important role in maintaining constant contact of the wheels with th...
In this paper, a methodology for the design and evaluation of a slow-active vehicle suspension syste...
Abstract—A new family of electro-mechanical active suspen-sions that offers significant advantages w...
A theoretical analysis of a new proposed variable stiffness model of the suspension system is studi...
Passive shock absorbers are designed for standard load condition. These give better vibration isolat...
Active and semi-active suspension systems are widely diffused into the automotive industry. Most of ...
The use of actuators in vehicle suspensions is not very com-mon. When looking at passenger cars, it ...
This paper investigates a systems approach to suspension design for passive and active suspensions. ...
The design of existing suspension systems typically involves a compromise solution for the conflicti...
Suspension systems are designed for the increase in comfort and stability in vehicles while driving....
The problem considered in this paper is the study and the control strategy design of semi-active sus...
This article proposes a new adaptive control algorithm for active suspension systems of passenger ca...
Handling of heavy vehicles such as tractors, trucks and buses require a large roll stiffness which c...
The purpose of this project is to design and simulate a semi-active suspension system for a quarter ...
The purpose of this paper is to enhance a passive suspension system with an electro-mechanical devic...
Vehicle suspension system plays important role in maintaining constant contact of the wheels with th...
In this paper, a methodology for the design and evaluation of a slow-active vehicle suspension syste...
Abstract—A new family of electro-mechanical active suspen-sions that offers significant advantages w...