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Model-based decoupling control method for dual-drive gantry stages : A case study with experimental validations
Archive ouverte : Article de revue
Edité par HAL CCSD ; Control Engineering Practice - ELSEVIER ; Elsevier
La version éditeur de cet article est disponible à l'adresse suivante :http://dx.doi.org/10.1016/j.conengprac.2012.10.010. Industrial motion control of dual–drive gantry stages is usually performed by position controllers acting independently on each actuator. This approach neglects the unbalance and the mechanical coupling between actuators, leading to poor positioning performances. To overcome this drawback, a model–based decoupling control is proposed. Initially, a dynamic model of the gantry stage is proposed. Once identified and validated,such model is written in terms of a decoupling basis. Then, by model inversion, a feedback feedforwarddecoupling control is presented. Experimental results show that, in comparison to the independent axis control approach, the proposed solution leads to improved motion control.. International audience. Industrial motion control of dual–drive gantry stages is usually performed by position controllers acting independently on each actuator. This approach neglects the unbalance and the mechanical coupling between actuators, leading to poor positioning performances. To overcome this drawback, a model–based decoupling control is proposed. Initially, a dynamic model of the gantry stage is proposed. Once identified and validated,such model is written in terms of a decoupling basis. Then, by model inversion, a feedback feedforwarddecoupling control is presented. Experimental results show that, in comparison to the independent axis control approach, the proposed solution leads to improved motion control.