Modified shuffled-frog-leaping algorithm in company with neural networks for harmonic distortion minimisation in real-time control applications of programmed pulse-width modulation inverters

Alimardani, A; Mazaheri, B Abdi, B Hosseinian, S. H Sharif University of Technology

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Modified shuffled-frog-leaping algorithm in company with neural networks for harmonic distortion minimisation in real-time control applications of programmed pulse-width modulation inverters

Alimardani, A ; Sharif University of Technology

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Type of Document: Article
DOI: 10.1049/iet-pel.2010.0271
Abstract:
Harmonic pollution minimisation in voltage-source programmed pulse-width modulation (PPWM) inverters is defined as a time-limited optimisation problem in real-time applications with variable DC sources. In order to obtain minimum total harmonic distortion (THD) as the objective function, shuffled-frog-leaping algorithm (SFLA) is modified and employed to calculate the switching angles and compared with non-linear programming as a traditional optimisation method. In addition, particle swarm optimisation and three of its modified versions as popular evolutionary optimisation algorithms are employed to ensure the capability of the proposed optimisation method. Moreover, modified sinusoidal PWM (MSPWM) THD is compared with PPWM THD. Furthermore, as the DC bus voltage in some applications might have high variations (in amplitude or frequency of fluctuations) in a short time, to acquire adequate response speed to this variation of DC source of inverters in real-time control applications, a neural network (NN) is trained by the off-line calculated results of MSFLA for various desired modulation indexes (various DC voltages). Simulation results demonstrate the accurate and high-speed response of the designed NN. The main contribution of this study is to provide a fast accurate method which can track the variation of DC source of inverters with high-quality solutions in real-time control applications
Keywords:
DC sources ; DC voltage ; DC-bus voltages ; Evolutionary optimisation ; Harmonic pollution ; High-quality solutions ; High-speed ; Modulation indexes ; Objective functions ; Optimisation method ; Optimisations ; Particle swarm optimisation ; Programmed pulse-width modulation ; Real-time application ; Response speed ; Simulation result ; Switching angles ; Total harmonic distortions ; Voltage source ; Algorithms ; Counting circuits ; Harmonic analysis ; Harmonic distortion ; Harmonic functions ; Optimization ; Pollution control ; Pulse modulation ; Pulse width modulation ; Real time control ; Real variables ; Voltage control ; Neural networks
Source: IET Power Electronics ; Volume 4, Issue 8 , 2011 , Pages 943-950 ; 17554535 (ISSN)
URL: http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=6021426&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D6021426

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