LQR Active Control of Fractional-Order Pantograph-Catenary System Based on Feedback Linearization

Abstract: Fractional-order calculus has exclusive advantages in modeling the viscoelastic components with obvious fractional-order characteristics such as air springs and metal rubbers in the pantograph structure. In this paper, the air spring is tested, and fractional-order calculus is applied to the modeling of pantograph-catenary system of the high-speed train. The parameter identification method of fractional-order derivative is analytically derived. The traditional lumped mass model is improved and a coupling two-d… Show more

“…Automatic control systems for the static force of the pantograph have become widespread since their use allows one to avoid breakaways and arcing [4,5]. A change in static pressure also leads to a change in the compression of the elastic elements of the panhead suspension.…”

The use of PI-algorithm for high-speed electric rolling stock automatic control system

“…Automatic control systems for the static force of the pantograph have become widespread since their use allows one to avoid breakaways and arcing [4,5]. A change in static pressure also leads to a change in the compression of the elastic elements of the panhead suspension.…”

The use of PI-algorithm for high-speed electric rolling stock automatic control system

Active pantograph in high-speed railway: Review, challenges, and applications

Contact Force Tracking Control of Pantograph-Catenary System Based on Low-Pass Filtering Backstepping