论文信息 - Discrete Adaptive Active Suspension for Hardware Implementation

Discrete Adaptive Active Suspension for Hardware Implementation

SUMMARY This paper presents a discrete adaptive control approach for an active suspension. The study involves formulation of an active suspension as a digital controller problem involving the time delays. A nonlinear time varying (NTV), single input single output (SISO) suspension model is considered for the analysis. A discrete model reference adaptive control (DMRAC) approach with recursive least square (RLS) estimation is used to form the controller. The controller is designed to maintain the static equilibrium irrespective of dynamic load variations as a disturbance force on the model. Simulation results for deterministic and stochastic inputs are presented to substantiate the approach. Results indicate good performance of adaptive controller even for large dynamic variations of the model and has the potential for a successful hardware implementation.

M. O. M. Osman | S. S. Vallurupalli | R. V. Dukkipati

[1] James M. Hamilton,et al. Computer-Optimized Adaptive Suspension Technology (COAST) , 1985, IEEE Transactions on Industrial Electronics.

[2] Seshadri Sankar,et al. A discrete harmonic linearization technique for simulating non-linear mechanical systems , 1985 .

[3] K. A. Stroud,et al. Engineering Mathematics , 2020, Nature.

[4] Dean Karnopp,et al. Optimal Performance of Variable Component Suspensions , 1988 .

[5] Robin S. Sharp,et al. An Evaluation of Passive Automotive Suspension Systems with Variable Stiffness and Damping Parameters , 1986 .

[6] M. O. M. Osman,et al. REAL TIME ADAPTIVE CONTROL COMPARED WITH STOCHASTIC OPTIMAL CONTROL OF ACTIVE SUSPENSION , 1993 .

[7] Ka C. Cheok,et al. Optimal Model-Following Suspension with Microcomputerized Damping , 1985, IEEE Transactions on Industrial Electronics.

[8] Graham C. Goodwin,et al. Adaptive filtering prediction and control , 1984 .

[9] Ka C. Cheok,et al. Model reference adaptive control for vehicle active suspension systems , 1991 .

[10] A. Hać,et al. Adaptive Control of Vehicle Suspension , 1987 .