This paper presents a differential evolution (DE) algorithm to solve the optimum switching angles problem in the harmonic elimination pulse width modulation (HE-PWM) inverter. Reformulated equations for two-level schemes are proposed to satisfy the DE algorithm. Optimum solutions are found for odd value of switching angles (odd N) case within all range of modulation index M. The DE algorithm needs a relative small amount of generations to reach accurate solutions with appropriate control parameters. The comparison of some common variants in the DE shows that all variants may generate the same precision results by using their best specific crossover rate and mutation factor values. MATLAB/Simulink simulation results confirm that the solution...
This paper presents an experimental performance comparison between differential evolution (DE) algor...
In this paper, the control of seven level diode clamped inverter with selective harmonic elimination...
Selective harmonic elimination (SHE) is an efficient method to eliminate low-order selected harmonic...
This paper presents the execution of Differential Evolution (DE) algorithm in order to understand th...
This paper presents the implementation of Differential Evolution (DE) algorithm to solve Harmonic El...
This paper presents an efficient Differential Evolution(DE) based solution for harmonic elimination ...
Differential evolution (DE) algorithm has been applied as a powerful tool to find optimum switching ...
Harmonic elimination pulse width modulation (HEPWM) method has been widely applied to multilevel vol...
This paper proposes the application of Differential Evolution (DE) algorithm to the selective harmo...
Selective harmonic elimination pulse-width modulation (SHE-PWM) works at low-frequency switching, wh...
This study describes the application of a soft computing method - known as differential evolution (D...
This paper presents an efficient and reliable Genetic Algorithm based solution for Selective Harmoni...
This paper presents an efficient and reliable Genetic Algorithm based solution for Selective Harmoni...
This paper presents an efficient and reliable Genetic Algorithm-based solution for Specific Harmonic...
This work describes the application of a soft computing technique—known as the differential evolutio...
This paper presents an experimental performance comparison between differential evolution (DE) algor...
In this paper, the control of seven level diode clamped inverter with selective harmonic elimination...
Selective harmonic elimination (SHE) is an efficient method to eliminate low-order selected harmonic...
This paper presents the execution of Differential Evolution (DE) algorithm in order to understand th...
This paper presents the implementation of Differential Evolution (DE) algorithm to solve Harmonic El...
This paper presents an efficient Differential Evolution(DE) based solution for harmonic elimination ...
Differential evolution (DE) algorithm has been applied as a powerful tool to find optimum switching ...
Harmonic elimination pulse width modulation (HEPWM) method has been widely applied to multilevel vol...
This paper proposes the application of Differential Evolution (DE) algorithm to the selective harmo...
Selective harmonic elimination pulse-width modulation (SHE-PWM) works at low-frequency switching, wh...
This study describes the application of a soft computing method - known as differential evolution (D...
This paper presents an efficient and reliable Genetic Algorithm based solution for Selective Harmoni...
This paper presents an efficient and reliable Genetic Algorithm based solution for Selective Harmoni...
This paper presents an efficient and reliable Genetic Algorithm-based solution for Specific Harmonic...
This work describes the application of a soft computing technique—known as the differential evolutio...
This paper presents an experimental performance comparison between differential evolution (DE) algor...
In this paper, the control of seven level diode clamped inverter with selective harmonic elimination...
Selective harmonic elimination (SHE) is an efficient method to eliminate low-order selected harmonic...