Cyclostationary Algorithm for Signal Analysis in Cognitive 4G Networks with Spectral Sensing and Resource Allocation

Batyha, Radwan M.; Janani, S.; Rose, S. G. Hymlin; Lolandes, Yanina Gallardo; Ortiz, Geovanny Genaro Reiván; Navaz, Shahista

doi:10.17762/ijcnis.v14i3.5570

Cited by 4 publications

(1 citation statement)

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“…Through this integration, the benefits of both control systems are identified, hence offering appropriate reinforcement for PID control [4]. This research aims to enhance the fuzzy control algorithm, optimise the PID control scheme, and validate the efficacy of the model [5][6].…”

Section: Introductionmentioning

confidence: 99%

Research step of PID control method of stepper motor based on improved fuzzy control algorithm

Zhang,

Meng,

Kou

2024

ICST Transactions on Scalable Information Systems

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The significance of PID control within the management system of stepper motors is noteworthy; nonetheless, it is worth noting that stepper motors are susceptible to issues such as low power, step loss, and vibration. The conventional Proportional-Integral-Derivative (PID) control method is insufficient in addressing the control challenge specific to stepper motor management systems. Hence, this research work presents an enhanced fuzzy control method that integrates the principles of fuzzy control theory with traditional PID control theory. The integration of fuzzy control into the P ID control is undertaken to create a fuzzy controller that satisfies the demands of stepper motor control. Additionally, the division of indices is conducted in accordance with the specifications of the fuzzy controller in order to mitigate the disruptive elements of PID control. then, the use of fuzzy control rules is employed to achieve control over the stepper motor, resulting in the development of an enhanced scheme that is then subjected to rigorous validation. The present study employs a MATLAB simulation to compare the performance of the enhanced fuzzy control algorithm with that of the P-ID control method. The results demonstrate that the improved fuzzy control algorithm significantly enhances the stability and dynamic performance of the stepper motor. Superior to traditional Proportional-Integral-Derivative (PID) control.

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Section: Introductionmentioning

confidence: 99%