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Hybrid Data-Driven Active Disturbance Rejection Sliding Mode Control with Tower Crane Systems Validation

Raul‐Cristian Roman, Radu‐Emil Precup, Emil M. Petriu

2024Romanian Journal of Information Science and Technology59 citationsDOIOpen Access PDF

Abstract

This paper proposes a combination of a data-driven algorithm represented by the second-order continuous-time Active Disturbance Rejection Control (ADRC) and a Sliding Mode Control (SMC) algorithm. The purpose of this hybrid controller referred to as ADRC-SMC is to improve the overall control-loop system performance while guaranteeing its stability. This will be done through clear, simple, and transparent steps of controller design in a novel real formulation focused on practical implementation. The parameters of the novel second-order continuous-time ADRC-SMC algorithm are optimally tuned using a metaheuristic slime mould algorithm. The purpose of obtaining the parameters of the ADRC-SMC algorithms in this model-based manner is to reduce the heuristics and further ensure a fair performance comparison of the ADRC-SMC algorithm with that of the popular ADRC algorithm. The data-driven second-order continuous-time ADRC and ADRC-SMC algorithms are validated experimentally validated on tower crane laboratory equipment.

Topics & Concepts

Disturbance (geology)Control theory (sociology)TowerActive disturbance rejection controlMode (computer interface)Control (management)Sliding mode controlComputer scienceEngineeringEnvironmental scienceStructural engineeringGeologyPhysicsArtificial intelligencePaleontologyState observerOperating systemQuantum mechanicsNonlinear systemHydraulic and Pneumatic SystemsFault Detection and Control SystemsAdvanced Control Systems Optimization
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