The use of dynamic driving simulators is constantly increasing in the automotive community, with applications ranging from vehicle development to rehab and driver training. The effectiveness of such devices is related to their capabilities of well reproducing the driving sensations, hence it is crucial that the motion control strategies gen- erate both realistic and feasible inputs to the platform. Such strate- gies are called motion cueing algorithms (MCAs). In recent years several MCAs based on model predictive control (MPC) techniques have been proposed. The main drawback associated with the use of MPC is its computational burden, that may limit their application to high performance dynamic simulators. In the paper, a fast, real-time implementation of an MPC-based MCA for 9 DOF, high performance platform is proposed. Effectiveness of the approach in managing the available working area is illustrated by presenting experimen- tal results from an implementation on a real device with a 200 Hz control frequency.

A fast implementation of MPC-based motion cueing algorithms for mid-size road vehicle motion simulators

BRUSCHETTA, MATTIA;MARAN, FABIO;BEGHI, ALESSANDRO
2017

Abstract

The use of dynamic driving simulators is constantly increasing in the automotive community, with applications ranging from vehicle development to rehab and driver training. The effectiveness of such devices is related to their capabilities of well reproducing the driving sensations, hence it is crucial that the motion control strategies gen- erate both realistic and feasible inputs to the platform. Such strate- gies are called motion cueing algorithms (MCAs). In recent years several MCAs based on model predictive control (MPC) techniques have been proposed. The main drawback associated with the use of MPC is its computational burden, that may limit their application to high performance dynamic simulators. In the paper, a fast, real-time implementation of an MPC-based MCA for 9 DOF, high performance platform is proposed. Effectiveness of the approach in managing the available working area is illustrated by presenting experimen- tal results from an implementation on a real device with a 200 Hz control frequency.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3228215
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