The paper investigates the use of a direct virtual sensor (DVS) to replace a physical sensor in a vehicle stability control system. A yaw control system is considered and the proposed solution can be particularly useful when a fault of the yaw rate physical sensor occurs. A DVS is a stable linear filter derived directly from input-output data, collected in a preliminary experiment. In this work, it is shown that, by using data collected in a closed-loop fashion, better DVS accuracy can be obtained with a reduced number of measured variables. Moreover, the robust stability of the closed-loop system employing a DVS is studied. The effectiveness of the presented results is shown through numerical simulations of harsh manoeuvres, performed usin...
Many safety-critical control systems use multiple redundant sensors to estimate the same controlled ...
Modern vehicle safety control systems are critical to the enhancement of lateral vehicle stability a...
Semiactive suspension control strategies require the knowledge of the suspension system state at eac...
The paper investigates the use of a direct virtual sensor (DVS) to replace a physical sensor in a ve...
The design of linear direct virtual sensors (DVS) to estimate yaw rate for vehicle stability control...
The design of linear virtual sensors to estimate yaw rate for vehicle stability control systems is i...
Abstract — The vehicle sideslip angle is one of the most important variable to evaluate vehicle stab...
Abstract—In this paper, a vehicle dynamic control (VDC) system for tracking the desired vehicle beha...
Advanced vehicle control technologies provide a great potential to further improve vehicle handling,...
In this paper, a vehicle dynamic control (VDC) system for tracking the desired vehicle behavior is d...
In recent years, Automated Guided Vehicles (AGVs) have been playing an increasingly important role i...
system for tracking desired vehicle behavior is developed. A two degrees of freedom control structur...
The use of virtual sensors in vehicles represents a cost-effective alternative to the installation o...
A study on the application of a direct virtual sensor-moving horizon estimator (DVS-MHE) to the prob...
Many safety-critical control systems use multiple redundant sensors to estimate the same controlled ...
Modern vehicle safety control systems are critical to the enhancement of lateral vehicle stability a...
Semiactive suspension control strategies require the knowledge of the suspension system state at eac...
The paper investigates the use of a direct virtual sensor (DVS) to replace a physical sensor in a ve...
The design of linear direct virtual sensors (DVS) to estimate yaw rate for vehicle stability control...
The design of linear virtual sensors to estimate yaw rate for vehicle stability control systems is i...
Abstract — The vehicle sideslip angle is one of the most important variable to evaluate vehicle stab...
Abstract—In this paper, a vehicle dynamic control (VDC) system for tracking the desired vehicle beha...
Advanced vehicle control technologies provide a great potential to further improve vehicle handling,...
In this paper, a vehicle dynamic control (VDC) system for tracking the desired vehicle behavior is d...
In recent years, Automated Guided Vehicles (AGVs) have been playing an increasingly important role i...
system for tracking desired vehicle behavior is developed. A two degrees of freedom control structur...
The use of virtual sensors in vehicles represents a cost-effective alternative to the installation o...
A study on the application of a direct virtual sensor-moving horizon estimator (DVS-MHE) to the prob...
Many safety-critical control systems use multiple redundant sensors to estimate the same controlled ...
Modern vehicle safety control systems are critical to the enhancement of lateral vehicle stability a...
Semiactive suspension control strategies require the knowledge of the suspension system state at eac...