A Data-Driven Model-Reference Adaptive Control Approach Based on Reinforcement Learning

Abouheaf, Mohammed I.; Gueaieb, Wail; Spinello, Davide; Al-Sharhan, Salah

doi:10.1109/rose52750.2021.9611772

Cited by 4 publications

(3 citation statements)

References 32 publications

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“…The block diagram in Figure 2 shows the structure of a model reference adaptive control (MRAC) system that is composed of a process, controller, reference model, and adjustment mechanism block (Abouheaf et al 2021)).…”

Section: Model Reference Adaptive Controlmentioning

confidence: 99%

Modeling and control of boiler in thermal power plant using model reference adaptive control

Sowparnika,

Vijula

2024

The Scientific Temper

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The boiler is a multi-variable system, which is very difficult to control due to its nonlinear behavior, uncertainties, interactions between variables, and unmeasured and frequent disturbances. Instead of conventional control techniques, modern control techniques are being implemented in most boilers by industries. Mathematical modeling is a useful tool to analyze a complex system’s performance and design a controller for the same. The mathematical model is derived from the open-loop data obtained from the process station. The mathematical equation is then derived using the decoupling technique in terms of transfer function. An adaptive controller is designed and implemented for the model and the simulation study for the same is carried out using MATLAB. The proposed method discussed in the paper can adjust the controller parameters in response to changes in plant and disturbance in real-time by referring to the reference model that specifies the properties of the desired control system.

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Section: Model Reference Adaptive Controlmentioning

confidence: 99%

Modeling and control of boiler in thermal power plant using model reference adaptive control

Sowparnika,

Vijula

2024

The Scientific Temper

View full text Add to dashboard Cite

show abstract

“…The work contributes an online measurement-driven adaptive learning mechanism that (i) adopts incremental learning capabilities to improve the control strategy in real-time, (ii) avoids incorporating the process and the reference-model dynamics explicitly into the underlying control strategy, (iii) provides a flexible feedback mechanism in terms of the order of the model-following dynamics, and (iv) allows for online approximate solutions for a class of optimal tracking problems. It builds on the contributions of [55] to develop an online IRL control mechanism for non-linear model-following systems with uncertain dynamics. The work presented herein supports the theoretical findings of [55] with solid data-processing and practical evidence.…”

Section: Introductionmentioning

confidence: 99%

“…It builds on the contributions of [55] to develop an online IRL control mechanism for non-linear model-following systems with uncertain dynamics. The work presented herein supports the theoretical findings of [55] with solid data-processing and practical evidence. A data-driven approach is developed for the real-time control of a 6-DoF Kinova robotic arm, as a highly nonlinear dynamic system.…”

Section: Introductionmentioning

confidence: 99%