230.548 People
Sorniotti, Aldo
University of Surrey
in Cooperation with on an Cooperation-Score of 37%
Topics
- automobile
- vehicle occupant
- road
- behavior
- passenger
- simulation
- comfort
- passenger car
- optimization
- railroad track
- steering
- tire
- control device
- stiffness
- axle
- load transfer
- yaw
- active suspension system
- production
- data
- vehicle dynamic
- sensor
- filter
- temperature
- pressure
- friction
- coefficient of friction
- inflation
- vehicle detector
- vehicle
- indicating instrument
- survey
- automotive engineering
- feedforward control
- driving
- safety
- architecture
- human being
- vehicle performance
- chassis
- automotive computer
- coordination
- actuator
- actuating system
- AIDS
- electric vehicle
- assessment
- weight
- engine
- velocity
- motor
- wheel
- torque
- traction
- driveline
- duct
- forecasting model
- impurity
- jerk control
- autonomous driving
- combustion
- acceleration
- fuselage
- clutch
- electrification
- shock absorber
- transient
- durability
- driveability
- traction control
- vehicle design
- reliability
- steady state
- mechanical engineering
- consensus
- lateral acceleration
- understeer
- tire force
- handling characteristic
- beltway
- emergency
- braking
- control system
- antilock brake system
- wheel slip
- stopping distance
- sport
- locomotive engineer
- sliding mode control
- automobile engineer
- control in manufacturing
- case study
- bottleneck
- constraint
- electronic control
- supervisor
- electronic controller
- sport utility vehicle
- frequency spectrum
- family
- map
- contaminant
- internal combustion engine
- fuel
- automobile industry
- regulation
- fuel consumption
- market
- testing equipment
- layout
- manual transmission
- validation
- specification
- vehicle operation
- submarine
- law
- friction brake
- vehicle safety
- gravity
- center of gravity
- oversteer
- gearshift
- power loss
- prevention
- motivation
- proportional integral derivative controller
- prototype
- bus
- accumulator
- energy consumption
- four wheel drive
- feedback control
- warehousing
- fee
- frequency response
- power train
- hybrid vehicle
- sensitivity
- dynamic model
- mathematical model
- parametric analysis
- sensitivity analysis
- minimization
- torsion
- downsizing
- commodity
- heavy duty vehicle
- farm tractor
- leveling
- pitch motion
- tree
- voltage
- test procedure
- working condition
- complex system
- failure analysis
- fault tree analysis
- functional analysis
- show 128 more
Publications
- 2022On the model-based design of front-to-total anti-roll moment distribution controllers for yaw rate trackingcitations
- 2021On the vehicle state estimation benefits of smart tires
- 2021Preview-based techniques for vehicle suspension control: a state-of-the-art reviewcitations
- 2021Integrated chassis control: Classification, analysis and future trendscitations
- 2020Comparison of Anti-Jerk Controllers for Electric Vehicles With On-Board Motorscitations
- 2020On the Enhancement of Vehicle Handling and Energy Efficiency of Electric Vehicles with Multiple Motors: The iCOMPOSE Projectcitations
- 2020Influence of the Prediction Model Complexity on the Performance of Model Predictive Anti-jerk Control for On-board Electric Powertrainscitations
- 2020On the Optimal Speed Profile for Electric Vehiclescitations
- 2020Anti-jerk controllers for automotive applications: A reviewcitations
- 2019An energy-efficient torque-vectoring algorithm for electric vehicles with multiple motorscitations
- 2019Explicit Nonlinear Model Predictive Control for Electric Vehicle Traction Controlcitations
- 2019Light Electric Vehicle Design Tailored to Human Needs
- 2019On the handling performance of a vehicle with different front-to-rear wheel torque distributionscitations
- 2019Influence of the prediction model complexity on the performance of model predictive anti-jerk control for on-board electric powertrains
- 2019An explicit nonlinear model predictive ABS controller for electro-hydraulic braking systemscitations
- 2018Explicit Nonlinear Model Predictive Control for Electric Vehicle Traction Controlcitations
- 2018Energy-Efficient Torque-Vectoring Control of Electric Vehicles with Multiple Drivetrainscitations
- 2018On the Experimental Analysis of Integral Sliding Modes for Yaw Rate and Sideslip Control of an Electric Vehicle with Multiple Motorscitations
- 2018Explicit model predictive control of an active suspension systemcitations
- 2018A Novel Hybridized Automated Manual Transmission for High Performance Cars
- 2018Explicit nonlinear model predictive control for vehicle stability controlcitations
- 2017Comparison of Traction Controllers for Electric Vehicles with On-Board Drivetrainscitations
- 2017Torque Distribution Strategies for Energy-Efficient Electric Vehicles with Multiple Drivetrainscitations
- 2017Torque-fill control and energy management for a four-wheel-drive electric vehicle layout with two-speed transmissionscitations
- 2017On the experimental analysis of single input single output control of yaw rate and sideslip anglecitations
- 2016Electric Vehicle Driving Range Extension Using Photovoltaic Panelscitations
- 2016On the Energy Efficiency of Electric Vehicles with Multiple Motorscitations
- 2016H<inf>∞</inf> loop shaping for the torque-vectoring control of electric vehicles: Theoretical design and experimental assessmentcitations
- 2016Gearshift control with torque-fill for a 4-wheel-drive fully electric vehiclecitations
- 2016Understeer characteristics for energy-efficient fully electric vehicles with multiple motors
- 2016A Fast and Parametric Torque Distribution Strategy for Four-Wheel-Drive Energy-Efficient Electric Vehiclescitations
- 2015All-wheel-drive electric vehicle with on-board motors: Experimental validation of the motion control systemscitations
- 2015Driving modes for designing the cornering response of fully electric vehicles with multiple motorscitations
- 2015Sources of power loss during torque-vectoring for fully electric vehiclescitations
- 2015Integral Sliding Mode for the Yaw Moment Control of Four-Wheel-Drive Fully Electric Vehicles with In-Wheel Motorscitations
- 2015Integral Sliding Mode for the Torque-Vectoring Control of Fully Electric Vehicles: Theoretical Design and Experimental Assessmentcitations
- 2014Energy consumption of a battery electric vehicle with infinitely variable transmissioncitations
- 2014Torque-vectoring control in fully electric vehicles via integral sliding modescitations
- 2014Optimal braking force allocation for a four-wheel drive fully electric vehiclecitations
- 2014Reducing the motor power losses of a four-wheel drive, fully electric vehicle via wheel torque allocationcitations
- 2014Comparison of feedback control techniques for torque-vectoring control of fully electric vehiclescitations
- 2014A four-wheel-drive fully electric vehicle layout with two-speed transmissionscitations
- 2014Erratum to: The Application of Control and Wheel Torque Allocation Techniques to Driving Modes for Fully Electric Vehicles (SAE Int. J. Passeng. Cars - Mech. Syst, (2014), 7, 2, (488-496), 10.4271/2014-01-0085)citations
- 2014The Application of Control and Wheel Torque Allocation Techniques to Driving Modes for Fully Electric Vehiclescitations
- 2014Photovoltaic energy source, Battery-supercapacitor energy storage/power system, electric vehicle charge station, in the grid
- 2014Wheel torque distribution criteria for electric vehicles with torque-vectoring differentialscitations
- 2014Design and comparison of the handling performance of different electric vehicle layoutscitations
- 2013Optimal Wheel Torque Distribution for a Four-Wheel-Drive Fully Electric Vehiclecitations
- 2013Drivability analysis of through-the-road-parallel hybrid vehiclescitations
- 2013Model predictive control for the power-split between supercapacitor and battery for automotive applicationscitations
- 2013Enhancing the energy efficiency of fully electric vehicles via the minimization of motor power lossescitations
- 2012The effect of half-shaft torsion dynamics on the performance of a traction control system for electric vehiclescitations
- 2012Optimization of a multiple-speed transmission for downsizing the motor of a fully electric vehiclecitations
- 2012Torque vectoring for electric vehicles with individually controlled motors: State-of-the-art and future developments
- 2012Energy consumption analysis of a novel four-speed dual motor drivetrain for electric vehiclescitations
- 2011Selection of the Optimal Gearbox Layout for an Electric Vehiclecitations
- 2011Experimental validation of a heavy goods vehicle fuel consumption modelcitations
- 2011A novel seamless 2-speed transmission system for electric vehicles: Principles and simulation resultscitations
- 2010Linear analysis of the effect of tire dynamics on the overall vehicle performancecitations
- 2010Chassis torsional stiffness: Analysis of the influence on vehicle dynamicscitations
- 2010Drivability analysis of heavy goods vehiclescitations
- 2010Vehicle Simulation for the Development of an Active Suspension System for an Agricultural Tractorcitations
- 2009Tire thermal model for enhanced vehicle dynamics simulationcitations
- 2009Comparative linear analysis of alternative layouts of heavy goods vehiclescitations
- 2008Enhanced tire brush model for vehicle dynamics simulationcitations
- 2007Vehicle dynamics simulation to develop an active roll control system
- 2006Hardware-in-the-loop testing of automotive control systems
- 2005Base model simulator (BMS) - A vehicle dynamics model to evaluate chassis control systems performancecitations
- 2004Four-wheel-steering control strategy and its integration with vehicle dynamics control and active roll controlcitations
- 2004A failsafe strategy for a Vehicle Dynamics Control (VDC) systemcitations
- 2003A General Approach to Study the Reliability of Complex Systems
Places of action
conferencepaper
Explicit model predictive control of an active suspension system
Abstract
Model predictive control (MPC) is increasingly finding its way into industrial applications, due to its superior tracking performance and ability to formally handle system constraints. However, the real-time capability problems related to the conventional implicit model predictive control (i-MPC) framework are well known, especially when targeting low-cost electronic control units (ECUs) for high bandwidth systems, such as automotive active suspensions, which are the topic of this paper. In this context, to overcome the real-time implementation issues of i-MPC, this study proposes explicit model predictive control (e-MPC), which solves the optimization problem off-line, via multi-parametric quadratic programming (mp-QP). e-MPC reduces the on-line algorithm to a function evaluation, which replaces the computationally demanding on-line solution of the quadratic programming (QP) problem. An e-MPC based suspension controller is designed and experimentally validated for a case study Sport Utility Vehicle (SUV), equipped with the active ACOCAR suspension system from the Tenneco Monroe product family. The target is to improve ride comfort in the frequency range of primary ride (< 4 Hz), without affecting the performance at higher frequencies. The proposed e-MPC implementations reduce the root mean square (RMS) value of the sprung mass acceleration by > 40% compared to the passive vehicle set-up for frequencies < 4 Hz, and by up to 19% compared to the same vehicle with a skyhook controller on the 0-100 Hz frequency range.
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