A new active Fault Tolerant Controller (FTC) is proposed for an automotive semi-active suspension, by considering a quarter of vehicle model. The design is composed by: (1) a robust non-linear controller used to isolate vibrations into the vehicle caused by external disturbances and (2) a mechanism of compensation used to accommodate additive faults in the damping force. The compensation mechanism uses a robust fault detector, based on parity space, to estimate the fault; this information allows the computation of the compensation signal by using the inverse dynamics of a damper model to reduce the fault effect into the vertical dynamics of the suspension. The non-linear controller, based on the Linear Parameter-Varying (LPV) control theory...
This article addresses the design of an active fault-tolerant full-vehicle semi-active suspension co...
Nowadays, the semi-active suspensions have received a lot of consideration from industry and academi...
This paper proposes a hybrid fault-tolerant control strategy for nonlinear active suspension subject...
A new active Fault Tolerant Controller (FTC) is proposed for an automotive semi-active suspension, b...
International audienceAbstract--A novel Fault-Tolerant Controller is proposed for an automotive susp...
International audienceThis paper presents applicative results about fault detection and control for ...
International audienceIn this short work, the problem of designing a Fault Tolerant dynamic output-f...
Semi-active suspension system plays a key role in enhancing comfort and road holding of vertical dyn...
International audienceAbstract--A novel fault tolerant strategy to compensate multiplicative actuato...
International audienceIn this paper, a novel fault tolerant control is proposed to accommodate dampe...
International audienceThe design of State-Feedback Fault Tolerant control for Semi-Active Suspension...
This paper addresses the design of a fault-tolerant semi-active suspension controller. The fault-tol...
In this Final Year Project (FYP), we are looking to validate the control approaches on the platform ...
In this paper, a robust passive fault-tolerant control (RPFTC) strategy based on H2/H∞ approach and ...
International audienceThis paper is concerned with an innovative LPV/H∞ fault tolerant control (Line...
This article addresses the design of an active fault-tolerant full-vehicle semi-active suspension co...
Nowadays, the semi-active suspensions have received a lot of consideration from industry and academi...
This paper proposes a hybrid fault-tolerant control strategy for nonlinear active suspension subject...
A new active Fault Tolerant Controller (FTC) is proposed for an automotive semi-active suspension, b...
International audienceAbstract--A novel Fault-Tolerant Controller is proposed for an automotive susp...
International audienceThis paper presents applicative results about fault detection and control for ...
International audienceIn this short work, the problem of designing a Fault Tolerant dynamic output-f...
Semi-active suspension system plays a key role in enhancing comfort and road holding of vertical dyn...
International audienceAbstract--A novel fault tolerant strategy to compensate multiplicative actuato...
International audienceIn this paper, a novel fault tolerant control is proposed to accommodate dampe...
International audienceThe design of State-Feedback Fault Tolerant control for Semi-Active Suspension...
This paper addresses the design of a fault-tolerant semi-active suspension controller. The fault-tol...
In this Final Year Project (FYP), we are looking to validate the control approaches on the platform ...
In this paper, a robust passive fault-tolerant control (RPFTC) strategy based on H2/H∞ approach and ...
International audienceThis paper is concerned with an innovative LPV/H∞ fault tolerant control (Line...
This article addresses the design of an active fault-tolerant full-vehicle semi-active suspension co...
Nowadays, the semi-active suspensions have received a lot of consideration from industry and academi...
This paper proposes a hybrid fault-tolerant control strategy for nonlinear active suspension subject...