Learning-based Control for PMSM Using Distributed Gaussian Processes with Optimal Aggregation Strategy

“…Several factors remain crucial in practical applications. These factors include stability, interpretability, adherence to physical principles in real-world scenarios, and the verifiability of performance through experimental validation [13]- [15].…”

“…)The coefficients β(x k , δ, τ ) and γ(x k , δ, τ ) are expressed by using the upper bound and lower bound of the PMSM's speed tracking error ēωm and e ωm as β = 2 log ēωm − e ωm + τ − 2 log δτ(15) …”

Torque-Induced-Overshoot Reduction Inspired Compensator for PMSM using Motor-Physics Embedded Gaussian Process Regression

“…Several factors remain crucial in practical applications. These factors include stability, interpretability, adherence to physical principles in real-world scenarios, and the verifiability of performance through experimental validation [13]- [15].…”

“…)The coefficients β(x k , δ, τ ) and γ(x k , δ, τ ) are expressed by using the upper bound and lower bound of the PMSM's speed tracking error ēωm and e ωm as β = 2 log ēωm − e ωm + τ − 2 log δτ(15) …”

Torque-Induced-Overshoot Reduction Inspired Compensator for PMSM using Motor-Physics Embedded Gaussian Process Regression

Optimization-Method-Inspired Update Scheme for Neural Network Assisted Control Tuning of PMSMs

A Novel Coupling Control Method for 6-DOF AUVs based on Multi-Motor Cooperation