Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

A Linear Parameter Varying Strategy Based Integral Sliding Mode Control Protocol Development and Its Implementation on Ball and Beam Balancer

NázevTitle
A Linear Parameter Varying Strategy Based Integral Sliding Mode Control Protocol Development and Its Implementation on Ball and Beam BalancerA Linear Parameter Varying Strategy Based Integral Sliding Mode Control Protocol Development and Its Implementation on Ball and Beam Balancer
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
I. Khan Yousafzai, F. Waheed, Q. Khan, A. I Bhatti, R. Ullah, R. Akmeliawati
DOIDOI
10.1109/ACCESS.2021.3081521
Časopis / citaceJournal / citation
IEEE Access. 2021, 2021(Volume-9), 74437-74445. ISSN 2169-3536.
RokYear
2021
JazykLanguage
eng
WoSWoS
000673547700001
ScopusScopus
2-s2.0-85107116308
RIVRIV
RIV/68407700:21220/21:00352582!RIV22-MSM-21220___
ProjektProject
Modelování, řízení a navrhování mechanických systémů 2019Modelling, control and design of mechanical systems 2019

AbstraktAbstract

An Integral Sliding Mode (ISM) based robust Linear Parameter Varying (LPV) control is presented for a laboratory scale ball on a beam balancer system. The inherent input channel nonlinearity and under-actuated coupled dynamics make it a challenging control problem. The ISM control, being famous for reaching phase elimination, operates under the action of a control input which is usually an algebraic sum of a continuous and a discontinuous component. In the design of continuous component, the LPV form is used to linearize the otherwise non linearizable input channel nonlinearity. Hence, an LPV control is designed to cope with the varying dynamics. On the other hand, the discontinuous component diminishes the effect of norm bounded matched disturbances. In addition, the discontinuous control component is made smooth (chattering free) in order to generate a continuous control signal. The stability of the proposed algorithm is presented rigorously in terms of a theorem and is validated experimentally.

An Integral Sliding Mode (ISM) based robust Linear Parameter Varying (LPV) control is presented for a laboratory scale ball on a beam balancer system. The inherent input channel nonlinearity and under-actuated coupled dynamics make it a challenging control problem. The ISM control, being famous for reaching phase elimination, operates under the action of a control input which is usually an algebraic sum of a continuous and a discontinuous component. In the design of continuous component, the LPV form is used to linearize the otherwise non linearizable input channel nonlinearity. Hence, an LPV control is designed to cope with the varying dynamics. On the other hand, the discontinuous component diminishes the effect of norm bounded matched disturbances. In addition, the discontinuous control component is made smooth (chattering free) in order to generate a continuous control signal. The stability of the proposed algorithm is presented rigorously in terms of a theorem and is validated experimentally.