This paper deals with the problem of damping driveline oscillations, which is crucial to improving driveability and passenger comfort. Recently, this problem has received an increased interest due to the introduction in several production vehicles of the dual-clutch powershift automatic transmission with dry clutches. This type of transmission improves fuel economy, but it results in a challenging control problem, due to driveline oscillations. These oscillations, also called shuffles, occur during gear-shift, while traversing backlash or when tip-in and tip-out maneuvers are performed. The first contribution of this paper is the derivation of an accurate piecewise affine drivetrain model with three inertias. The second contribution is conc...
This paper addresses the predictive control of the harmonic drive in an automotive application. The ...
Active vibration control of automotive drivetrains must be developed to compensate for the backlash ...
Vibrations that arise during the slip phase of the clutch in the driveline of a motor vehicle yield ...
This paper deals with the problem of damping driveline oscillations, which is crucial to improving d...
International audienceThis paper deals with the problem of active damping of driveline oscillations ...
The Shunt and shuffle-phenomenon at rapid torque transients in a vehicle driveline greatly influence...
For enhancement of the drivability and lifetime of the components, reduction in vehicle driveline os...
Load changes in automotive powertrains may cause uncomfortable vibrations during vehicle acceleratio...
During certain driving scenarios, low-speed engine vibrations get propagated to the driveline and af...
Oscillations in the driveline of a vehicle, specifically originating from the clutch system, are ref...
Flexibility and backlash of vehicle drivelines typically cause unwanted oscillations and noise, know...
Torsional resonances in the vehicle powertrain are undesired phenomena in automotive vehicles, since...
This paper presents a driveline active damping strategy for electric vehicles. We first propose a bl...
This paper describes a research work on driveline modeling, torsional vibration analysis, and clutch...
This paper addresses the predictive control of the harmonic drive in an automotive application. The ...
Active vibration control of automotive drivetrains must be developed to compensate for the backlash ...
Vibrations that arise during the slip phase of the clutch in the driveline of a motor vehicle yield ...
This paper deals with the problem of damping driveline oscillations, which is crucial to improving d...
International audienceThis paper deals with the problem of active damping of driveline oscillations ...
The Shunt and shuffle-phenomenon at rapid torque transients in a vehicle driveline greatly influence...
For enhancement of the drivability and lifetime of the components, reduction in vehicle driveline os...
Load changes in automotive powertrains may cause uncomfortable vibrations during vehicle acceleratio...
During certain driving scenarios, low-speed engine vibrations get propagated to the driveline and af...
Oscillations in the driveline of a vehicle, specifically originating from the clutch system, are ref...
Flexibility and backlash of vehicle drivelines typically cause unwanted oscillations and noise, know...
Torsional resonances in the vehicle powertrain are undesired phenomena in automotive vehicles, since...
This paper presents a driveline active damping strategy for electric vehicles. We first propose a bl...
This paper describes a research work on driveline modeling, torsional vibration analysis, and clutch...
This paper addresses the predictive control of the harmonic drive in an automotive application. The ...
Active vibration control of automotive drivetrains must be developed to compensate for the backlash ...
Vibrations that arise during the slip phase of the clutch in the driveline of a motor vehicle yield ...