Sadeghi, Amir NobaharArikan, Kutluk BilgeOzbek, Mehmet EfeBaranoglu, BesimMechatronics EngineeringDepartment of Mechatronics EngineeringDepartment of Electrical & Electronics EngineeringManufacturing Engineering2024-07-052024-07-05201950020-29402051-873010.1177/00202940198361212-s2.0-85064714449https://doi.org/10.1177/0020294019836121https://hdl.handle.net/20.500.14411/3376Baranoglu, Besim/0000-0003-2005-050X; Nobahar, Amir/0000-0002-8248-4963;Oil well drilling towers have different operating modes during a real operation, like drilling, tripping, and reaming. Each mode involves certain external disturbances and uncertainties. In this study, using the nonlinear model for the modes of the operation, robust and/or adaptive control systems are designed based on the models. These control strategies include five types of controllers: cascaded proportional-integral-derivative, active disturbance rejection controller, loop shaping, feedback error learning, and sliding mode controller. The study presents the design process of these controllers and evaluates the performances of the proposed control systems to track the reference signal and reject the uncertain forces including the parametric uncertainties and the external disturbances. This comparison is based on the mathematical performance measures and energy consumption. In addition, three architectures are presented to control the weight on bit during drilling process, and also to maintain a preset constant weight on bit, two control approaches are designed and presented.eninfo:eu-repo/semantics/openAccessDrilling rig controlautonomous drillingcascaded proportional-integral-derivativeactive disturbance rejection controlloop-shaping controlfeedback error learningsliding mode controlArticleQ3525-6702719WOS:000487114200032