Improved SMPS modeling for photovoltaic applications by a novel neural paradigm with Hamiltonian-based training algorithm

Author

Bonanno, F. ; Capizzi, G. ; Lo Sciuto, G.

Author_Institution

Dept. of Electr., Electron. & Inf. Eng., Univ. of Catania, Catania, Italy

fYear

2015

fDate

16-18 June 2015

Firstpage

723

Lastpage

730

Abstract

This paper discuss as the dynamics of a SMPS can be investigated by recurrent neural network (RNN) based models with an Hamiltonian formulation and function used for the training, so leading to a novel paradigm that we call RNNHT model. By using the calculated state variables in a boost converter a RNN is trained by considering also the minimization of the energy stored according to a defined cost function. Simulation results show the improvements in the dynamic performance output prediction versus some well assessed boost converter models in the recent literature.

Keywords

DC-DC power convertors; battery storage plants; learning (artificial intelligence); photovoltaic power systems; power engineering computing; power generation economics; recurrent neural nets; DC-DC boost converter model; Hamiltonian formulation; Hamiltonian-based training algorithm; RNNHT model; SMPS modeling; battery storage systems; calculated state variables; defined cost function; dynamic performance output prediction improvement; energy minimization; neural paradigm; photovoltaic applications; recurrent neural network based models; solar photovoltaic generation system; Computational modeling; Inductors; Integrated circuit modeling; Mathematical model; Switched-mode power supply; Switches; Training; Boost converter; Dynamic modeling; Hamiltonian formulation; Photovoltaic; Recurrent neural network; SMPS; Simulation; Training algorithm;

fLanguage

English

Publisher

ieee

Conference_Titel

Clean Electrical Power (ICCEP), 2015 International Conference on

Conference_Location

Taormina

Type

conf

DOI

10.1109/ICCEP.2015.7177571

Filename

7177571