Model Predictive Control of Multilevel Inverters: Challenges, Recent Advances, and Trends

Ibrahim Harbi; Jose Rodriguez; Eyke Liegmann; Hamza Makhamreh; Marcelo Lobo Heldwein; Mateja Novak; Mattia Rossi; Mohamed Abdelrahem; Mohamed Trabelsi; Mostafa Ahmed; Petros Karamanakos; Shuai Xu; Tomislav Dragicevic; Ralph Kennel

doi:10.1109/TPEL.2023.3288499

Model Predictive Control of Multilevel Inverters: Challenges, Recent Advances, and Trends

Ibrahim Harbi
, Jose Rodriguez
, Eyke Liegmann
, Hamza Makhamreh
, Marcelo Lobo Heldwein
, Mateja Novak
, Mattia Rossi
, Mohamed Abdelrahem
, Mohamed Trabelsi
, Mostafa Ahmed
, Petros Karamanakos
, Shuai Xu
, Tomislav Dragicevic
, Ralph Kennel

Electrical Engineering

Research output: Contribution to journal › Article › Scientific › peer-review

193 Citations (Scopus)

321 Downloads (Pure)

Abstract

Model predictive control (MPC) has emerged as a promising control method in power electronics, particularly for multi-objective control problems such as multilevel inverter (MLI) applications. Over the past two decades, improving the performance of MPC and tackling its technical challenges such as computational load, modeling accuracy, cost function design and weighting factors selection have attracted great interest in power electronics. This article aims to discuss the current state of MPC strategies for MLI applications, describing the significance of each challenge with the reported effective solutions. Through this review, the MPC methods are categorized into two groups, direct MPC (without modulator) and indirect MPC (with modulator). The recent advances of each category are presented and analyzed, focusing on direct MPC as the most applied method for MLI topologies. In addition, some of the important concepts are experimentally validated through a case study and compared under the same operating conditions to evaluate the performance and highlight their features. Finally, the future trends of MPC for MLI applications are discussed based on the current state and reported developments.

Original language	English
Pages (from-to)	10845-10868
Number of pages	24
Journal	IEEE Transactions on Power Electronics
Volume	38
Issue number	9
DOIs	https://doi.org/10.1109/TPEL.2023.3288499
Publication status	Published - 2023
Publication type	A1 Journal article-refereed

Funding

The work of Jose Rodriguez was supported by the Chilean National Agency for Research and Development under Grants FB0008, 1210208, and 1221293. Recommended for publication by Associate Editor M. Perez.

Keywords

capacitor balance
Computational modeling
Cost function
current control
dc-link balance
Electronic mail
Model predictive control (MPC)
Modulation
multilevel inverter (MLI)
Predictive models
Switches
Topology

Publication forum classification

Publication forum level 3

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/TPEL.2023.3288499

Model Predictive Control of Multilevel Inverters
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Harbi, I., Rodriguez, J., Liegmann, E., Makhamreh, H., Heldwein, M. L., Novak, M., Rossi, M., Abdelrahem, M., Trabelsi, M., Ahmed, M., Karamanakos, P., Xu, S., Dragicevic, T., & Kennel, R. (2023). Model Predictive Control of Multilevel Inverters: Challenges, Recent Advances, and Trends. IEEE Transactions on Power Electronics, 38(9), 10845-10868. https://doi.org/10.1109/TPEL.2023.3288499

@article{68b43382d00948eb98b6e97a3acf6a74,

title = "Model Predictive Control of Multilevel Inverters: Challenges, Recent Advances, and Trends",

abstract = "Model predictive control (MPC) has emerged as a promising control method in power electronics, particularly for multi-objective control problems such as multilevel inverter (MLI) applications. Over the past two decades, improving the performance of MPC and tackling its technical challenges such as computational load, modeling accuracy, cost function design and weighting factors selection have attracted great interest in power electronics. This article aims to discuss the current state of MPC strategies for MLI applications, describing the significance of each challenge with the reported effective solutions. Through this review, the MPC methods are categorized into two groups, direct MPC (without modulator) and indirect MPC (with modulator). The recent advances of each category are presented and analyzed, focusing on direct MPC as the most applied method for MLI topologies. In addition, some of the important concepts are experimentally validated through a case study and compared under the same operating conditions to evaluate the performance and highlight their features. Finally, the future trends of MPC for MLI applications are discussed based on the current state and reported developments.",

keywords = "capacitor balance, Computational modeling, Cost function, current control, dc-link balance, Electronic mail, Model predictive control (MPC), Modulation, multilevel inverter (MLI), Predictive models, Switches, Topology",

author = "Ibrahim Harbi and Jose Rodriguez and Eyke Liegmann and Hamza Makhamreh and Heldwein, \{Marcelo Lobo\} and Mateja Novak and Mattia Rossi and Mohamed Abdelrahem and Mohamed Trabelsi and Mostafa Ahmed and Petros Karamanakos and Shuai Xu and Tomislav Dragicevic and Ralph Kennel",

note = "Funding Information: The work of Jose Rodriguez was supported by the Chilean National Agency for Research and Development under Grants FB0008, 1210208, and 1221293. Recommended for publication by Associate Editor M. Perez. Publisher Copyright: IEEE",

year = "2023",

doi = "10.1109/TPEL.2023.3288499",

language = "English",

volume = "38",

pages = "10845--10868",

journal = "IEEE Transactions on Power Electronics",

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Harbi, I, Rodriguez, J, Liegmann, E, Makhamreh, H, Heldwein, ML, Novak, M, Rossi, M, Abdelrahem, M, Trabelsi, M, Ahmed, M, Karamanakos, P, Xu, S, Dragicevic, T & Kennel, R 2023, 'Model Predictive Control of Multilevel Inverters: Challenges, Recent Advances, and Trends', IEEE Transactions on Power Electronics, vol. 38, no. 9, pp. 10845-10868. https://doi.org/10.1109/TPEL.2023.3288499

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T1 - Model Predictive Control of Multilevel Inverters

T2 - Challenges, Recent Advances, and Trends

AU - Harbi, Ibrahim

AU - Rodriguez, Jose

AU - Liegmann, Eyke

AU - Makhamreh, Hamza

AU - Heldwein, Marcelo Lobo

AU - Novak, Mateja

AU - Rossi, Mattia

AU - Abdelrahem, Mohamed

AU - Trabelsi, Mohamed

AU - Ahmed, Mostafa

AU - Karamanakos, Petros

AU - Xu, Shuai

AU - Dragicevic, Tomislav

AU - Kennel, Ralph

N1 - Funding Information: The work of Jose Rodriguez was supported by the Chilean National Agency for Research and Development under Grants FB0008, 1210208, and 1221293. Recommended for publication by Associate Editor M. Perez. Publisher Copyright: IEEE

PY - 2023

Y1 - 2023

N2 - Model predictive control (MPC) has emerged as a promising control method in power electronics, particularly for multi-objective control problems such as multilevel inverter (MLI) applications. Over the past two decades, improving the performance of MPC and tackling its technical challenges such as computational load, modeling accuracy, cost function design and weighting factors selection have attracted great interest in power electronics. This article aims to discuss the current state of MPC strategies for MLI applications, describing the significance of each challenge with the reported effective solutions. Through this review, the MPC methods are categorized into two groups, direct MPC (without modulator) and indirect MPC (with modulator). The recent advances of each category are presented and analyzed, focusing on direct MPC as the most applied method for MLI topologies. In addition, some of the important concepts are experimentally validated through a case study and compared under the same operating conditions to evaluate the performance and highlight their features. Finally, the future trends of MPC for MLI applications are discussed based on the current state and reported developments.

AB - Model predictive control (MPC) has emerged as a promising control method in power electronics, particularly for multi-objective control problems such as multilevel inverter (MLI) applications. Over the past two decades, improving the performance of MPC and tackling its technical challenges such as computational load, modeling accuracy, cost function design and weighting factors selection have attracted great interest in power electronics. This article aims to discuss the current state of MPC strategies for MLI applications, describing the significance of each challenge with the reported effective solutions. Through this review, the MPC methods are categorized into two groups, direct MPC (without modulator) and indirect MPC (with modulator). The recent advances of each category are presented and analyzed, focusing on direct MPC as the most applied method for MLI topologies. In addition, some of the important concepts are experimentally validated through a case study and compared under the same operating conditions to evaluate the performance and highlight their features. Finally, the future trends of MPC for MLI applications are discussed based on the current state and reported developments.

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KW - Cost function

KW - current control

KW - dc-link balance

KW - Electronic mail

KW - Model predictive control (MPC)

KW - Modulation

KW - multilevel inverter (MLI)

KW - Predictive models

KW - Switches

KW - Topology

U2 - 10.1109/TPEL.2023.3288499

DO - 10.1109/TPEL.2023.3288499

M3 - Article

AN - SCOPUS:85163427446

SN - 0885-8993

VL - 38

SP - 10845

EP - 10868

JO - IEEE Transactions on Power Electronics

JF - IEEE Transactions on Power Electronics

IS - 9

ER -

Model Predictive Control of Multilevel Inverters: Challenges, Recent Advances, and Trends

Abstract

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Keywords

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