样式: 排序: IF: - GO 导出 标记为已读
-
Dynamic Targets Occupancy Status Detection utilizing mmWave Radar Sensor and Ensemble Machine Learning IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-03-13 Amala Sonny, Abhinav Kumar, Linga Reddy Cenkeramaddi
-
Pests Phototactic Rhythm Driven Solar Insecticidal Lamp Device Evolution: Mathematical Model Preliminary Result and Future Directions IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-03-12 Heyang Yao, Lei Shu, WeiKai LinHuang, Miguel Mart´ınez-Garc´ıa, Xiuguo Zou
-
Grid-Forming Inverters: A Comparative Study of Different Control Strategies in Frequency and Time Domains IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-03-05 Nabil Mohammed, Harith Udawatte, Weihua Zhou, David Hill, Behrooz Bahrani
-
A Scalable Real-Time SDN-Based MQTT Framework for Industrial Applications IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-03-05 E. Shahri, P. Pedreiras, L. Almeida
-
End-Edge Collaborative Lightweight Secure Federated Learning for Anomaly Detection of Wireless Industrial Control Systems IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-27 Chi Xu, Xinyi Du, Lin Li, Xinchun Li, Haibin Yu
With the wide applications of industrial wireless network technologies, the industrial control system (ICS) is evolving from wired and centralized to wireless and distributed, during which eavesdropping and attacking become serious problems. To guarantee the security of wireless and distributed ICS, this article establishes an end-edge collaborative lightweight secure federated learning (LSFL) architecture
-
Single-Phase Voltage-Doubler High-Power-Factor Ćuk Rectifier Operating in Discontinuous Conduction Mode IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-26 Mateus Nava Mezaroba, Carlos Henrique Illa Font, Telles Brunelli Lazzarin
This article provides a comprehensive analysis, including static, dynamic, and experimental validation, of a voltage-doubler Ćuk rectifier operating in the discontinuous conduction mode (DCM) for single-phase applications. The proposed topology integrates two classic Ćuk rectifiers through a three-position switch, allowing for either a doubled output voltage or reduced voltage efforts compared to the
-
Modulated Model Predictive Speed Controller for PMSM Drives Employing Voltage-Based Cost Function IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-22 Ahmed Aboelhassan, Shuo Wang, Giampaolo Buticchi, Vasyl Varvolik, Michael Galea, Serhiy Bozhko
Various electrical drive systems have widely implemented the classical cascaded field-oriented control (FOC) topology, including speed loop, current loop, and modulation. On the other hand, modulated model predictive control (M 2 PC) has been employed recently for different applications for faster dynamic response and better power quality. The FOC topology's speed and current control loops can be merged
-
Design of Integrated Hybrid Configuration of Modular Multilevel Converter and Marx Generator to Generate Complex Waveforms for Dielectric Testing of Grid Assets IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-22 Dhanashree Ashok Ganeshpure, Thiago Batista Soeiro, Mohamad Ghaffarian Niasar, Nitish Milind Kulkarni, Pavol Bauer, Peter Vaessen
This article proposes a new configuration of a modular multilevel converter (MMC) and a Marx generator to generate fast-rising impulse waveforms. This new configuration improves the capabilities of the MMC-based high voltage arbitrary wave shape generator to generate fast-rising impulse since the MMC topology faces many inherent limitations. Similar to the conventional superimposed circuit of the ac
-
Stability Analysis and Active Damping Design for Grid-Forming Converters in LC Resonant Grids IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-15 Shiyi Liu, Heng Wu, Xiongfei Wang, Theo Bosma, Ganesh Sauba
-
Virtual Synchronous Machine Control for Doubly-Fed Induction Machine based Wind Energy Conversion Systems IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-14 Andre Thommessen, Christoph M. Hackl
-
Power Imbalance Analysis of Modular Multilevel Converter With Distributed Energy Systems IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-12 Tomas Salvadores, Javier Pereda, Félix Rojas
The modular multilevel converter (MMC) can integrate distributed energy systems (DES), such as a battery energy storage system, to expand its functionalities and carry out multiple simultaneous tasks. However, a DES induces power imbalances within the MMC, which affects the operating currents and voltages of the converter. This phenomenon has been partially covered in recent works, but an analytical
-
Automatic Synthesis of Recurrent Neurons for Imitation Learning From CNC Machine Operators IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-07 Hoa Thi Nguyen, Roland Olsson, Øystein Haugen
Analyzing time series data in industrial settings demands domain knowledge and computer science expertise to develop effective algorithms. AutoML approaches aim to automate this process, reducing human bias and improving accuracy and cost-effectiveness. This article applies an evolutionary algorithm to synthesize recurrent neurons optimized for specific datasets. This adds another layer to the AutoML
-
PyMem: A Graphical User Interface Tool for Neuromemristive Hardware–Software Co-Design IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-02-06 Aswani Radhakrishnan, Jushnah Palliyalil, Sreeja Babu, Anuar Dorzhigulov, Alex James
The hardware implementation of neuromorphic system requires energy and area-efficient hardware. Memristor-based hardware architectures is a promising approach that naturally mimics the switching behavior of the neuron models. However, to build complex neural systems, it is a tedious process to select the right memristor models and architectures that are suitable to be used in a range of realistic conditions
-
-
-
Airflow Cooling Mechanism for High Power-Density Permanent Magnet Motor IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-31 Awungabeh Flavis Akawung, Besong John Ebot, Yasutaka Fujimoto
High power-density electric machines present the benefits of high torque and speed. However, this generally comes with heating problems characterized by high temperatures that affect performance. Conventional approaches to address overheating are to include cooling fans or jackets within the stator core of the machine. This approach is challenging to implement in small-size high power-density machines
-
Iterative Learning Observer-Based High-Precision Motion Control for Repetitive Motion Tasks of Linear Motor-Driven Systems IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-29 Zhitai Liu, Xinghu Yu, Weiyang Lin, Juan J. Rodríguez-Andina
Repetitive motion is one of the most common motion tasks in linear motor (LM)-driven system. The LM performs repetitive motion based on a periodic target trajectory under control, thus leading to periodic characteristics in certain system uncertainties. For this type of task, this article proposes an iterative learning observer-based high-precision motion control scheme that comprehensively considers
-
-
Multiobjective Hyperparameter Optimization of Artificial Neural Networks for Optimal Feedforward Torque Control of Synchronous Machines IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-22 Niklas Monzen, Florian Stroebl, Herbert Palm, Christoph M. Hackl
Multiobjective hyperparameter optimization is applied to find optimal artificial neural network (ANN) architectures used for optimal feedforward torque control (OFTC) of synchronous machines. The proposed framework allows to systematically identify Pareto optimal ANNs with respect to multiple (partly) contradictory objectives, such as approximation accuracy and computational burden of the considered
-
Reinforcement Learning-Based Adaptive Control of a Piezo-Driven Nanopositioning System IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-17 Liheng Chen, Qingsong Xu
This article proposes a new reinforcement learning (RL)-based adaptive control design for precision motion control of a two-degree-of-freedom piezoelectric XY nanopositioning system. In this design, an actor-critic structure is developed to eliminate the effects of uncertain nonlinearities and cross-coupling motion between the two working axes. Then, an adaptive parameter adjustment mechanism is designed
-
On the Detection of Neutral Loss, Islanding, and Meter Tampering in Electrical Installations IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-16 Syllas Frantzeskakis, Nick Rigogiannis, Christos Christodoulou, Nick Papanikolaou
Neutral conductor loss on the upstream network of an electrical installation, as well as unintentional islanding operation, are two critical issues directly related to the safety of both human life and equipment of the electrical installation. Furthermore, another critical issue is meter tampering, which affects the operation and development of national power sectors. The state-of-the-art methods deal
-
IEEE Industrial Electronics Society Information IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-10
-
-
-
EV Smart Charging in Distribution Grids–Experimental Evaluation Using Hardware in the Loop Setup IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-10 Yunhe Yu, Lode De Herdt, Aditya Shekhar, Gautham Ram Chandra Mouli, Pavol Bauer
The rising demand for electric vehicles (EVs) in the face of limited grid capacity encourages the development and implementation of smart charging (SC) algorithms. Experimental validation plays a pivotal role in advancing this field. This article formulates a hierarchical mixed integer programming EV SC algorithm designed for low voltage (LV) distribution grid applications. A flexible receding horizon
-
Robust Multiple-Fault Diagnosis of PMSM Drives Under Variant Operations and Noisy Conditions IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-05 Mahmoud S. Mahmoud, Van Khang Huynh, Jagath Sri Lal Senanyaka, Kjell G. Robbersmyr
-
Design and Performance Analysis of a Repeater-Assisted Multireceiver Wireless Power Transfer System Operating at MHz Frequencies IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-04 Yining Liu, Nam Ha-Van, Prasad Jayathurathnage, Jorma Kyyrä, Sergei A. Tretyakov
-
Enhancing Scalability of Fast Electric Vehicle Charging Stations: Solutions for AC–DC Side Integration and Regulation IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2024-01-01 Ali Sharida, Sertac Bayhan, Haitham Abu-Rub
-
Discrete Optimization of Weighting Factor in Model Predictive Control of Induction Motor IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-28 S. Alireza Davari, Vahab Nekoukar, Shirin Azadi, Freddy Flores-Bahamonde, Cristian Garcia, Jose Rodriguez
Tuning the weighting factor is crucial to model predictive torque and flux control. A finite set of discrete weighting factors is utilized in this research to determine the optimum solution. The Pareto line optimization technique is implemented to prevent the occurrence of local optimum solutions. By conducting an accuracy analysis, the number of discrete weighting factors is optimized, and the number
-
Security of Programmable Logic Controllers and Related Systems: Today and Tomorrow IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-23 Wael Alsabbagh, Peter Langendörfer
Programmable logic controllers (PLCs) are indispensable in critical infrastructures and industrial control systems. The increasing demand for enhanced cost-effectiveness and production efficiency has driven automation manufacturers to integrate PLC-based applications and systems with external networks, such as Internet. Unfortunately, this connectivity has exposed systems to potential malicious attacks
-
Double-Edged Defense: Thwarting Cyber Attacks and Adversarial Machine Learning in IEC 60870-5-104 Smart Grids IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-23 Hadir Teryak, Abdullatif Albaseer, Mohamed Abdallah, Saif Al-Kuwari, Marwa Qaraqe
Smart grids (SGs), a cornerstone of modern power systems, facilitate efficient management and distribution of electricity. Despite their advantages, increased connectivity and reliance on communication networks expand their susceptibility to cyber threats. Machine learning (ML) can radically transform cyber security in SGs and secure protocols as in IEC 60870 standard, an international standard for
-
Measurement Based Stochastic Channel Model for 60 GHz Mmwave Industrial Communications IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-20 Joseba Osa, Niclas Björsell, Iñaki Val, Mikel Mendicute
Communications in the mmWave spectrum are gaining relevance in the last years as they are a promising candidate to cope with the increasing demand of throughput and latency in different use cases. Nowadays, several efforts have been carried out to characterize the propagation medium of these signals with the aim of designing their corresponding communication protocols accordingly, and a wide variety
-
Intelligent Fault Diagnosis of Manufacturing Processes Using Extra Tree Classification Algorithm and Feature Selection Strategies IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-20 Sina Yousefi, Shen Yin, Muhammad Gibran Alfarizi
Fault diagnosis is integral to maintenance practices, ensuring optimal machinery functionality. While traditional methods relied on human expertise, intelligent fault diagnosis techniques, propelled by machine learning (ML) advancements, now offer automated fault identification. Despite their efficiency, a research gap exists, emphasizing the need for methods providing not just reliable fault identification
-
Black Box-Based Incremental Reduced-Order Modeling Framework of Inverter-Based Power Systems IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-07 Weihua Zhou, Jef Beerten
Due to the capability to perform participation factor analysis and oscillation origin location, the state–space model (SSM)-based eigenvalue method has been widely used for stability assessment of inverter-penetrated power systems. However, possible internal confidentiality of inverters impedes the derivation of their SSMs. In addition, conventional derivation procedure of system SSM can be tedious
-
Developed AC/DC/AC Converter Structure Based on Shunt Active Filter and Advanced Modulation Approach for Asymmetrical Cascade H-Bridge Multilevel Inverters IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-11-06 Nabil Karania, Mohamad Alaaeddin AlalI, Stefano Di Gennaro, Jean-Pierre Barbot
This article presents a free-harmonic ac/dc/ac converter structure using a novel modulation approach for asymmetrical cascade H-bridge multilevel inverter and, conventional rectifiers combined with a shunt active filter, for grid integration. The novel approach SMT-SHE combines two modulation techniques: the staircase modulation technique (SMT); and the selective harmonics elimination (SHE). SMT-SHE
-
An Energy-Saving LoRa Linear Network System With Adaptive Transmission Parameter IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-31 Hao Wang, Shanshan Lv, Yang Han, Xihai Zhang, Yu Zhang, Wenbin Dong, Jianxin Liao, Hongwei Luan
LoRaWAN is widely used in information monitoring under star topology. However, for linear topology applications, the LoRaWAN protocol requires the introduction of a large number of gateways, which will lead to information asymmetry, energy waste, and low network utilization. An energy-saving LoRa linear network system with adaptive transmission parameter is proposed. LoRa multihop technology is used
-
Normalized Linearly-Combined Chaotic System: Design, Analysis, Implementation, and Application IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-30 Md Sakib Hasan, Anurag Dhungel, Partha Sarathi Paul, Maisha Sadia, Md Razuan Hossain
This work presents a general framework for developing a multiparameter 1-D chaotic system for uniform and robust chaotic operation across the parameter space. This is important for diverse practical applications where parameter disturbance may cause degradation or even complete disappearance of chaotic properties. The wide uninterrupted chaotic range and improved chaotic properties are demonstrated
-
Wireless Control of Active Gate Drivers for Silicon Carbide Power MOSFETs IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-20 Daniel A. Philipps, Dimosthenis Peftitsis
Active gate drivers (AGDs) enhance the controllability and monitoring of switching devices, especially for fast switching silicon carbide (SiC) power metal–oxide–semiconductor field-effect transistors ( mosfet s). To support information flow between gate driver, converter, and grid control units, high-performance digital infrastructure is required. This article proposes a practical strategy of assessing
-
Improvement of Transient Performance in Microgrids: Comprehensive Review on Approaches and Methods for Converter Control and Route of Grid Stability IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-18 Mandarapu Srikanth, Y. V. Pavan Kumar, Mohammad Amir, Sukumar Mishra, Atif Iqbal
In conventional power systems, stability is ensured successfully because of large synchronous generators, where, during transient conditions, the inertia and dynamics of the synchronous generators help to retain stability. On the contrary, inverter-interfaced distributed energy resources suffer from maintaining stability because of their quick dynamics (opposite to the concept of inertia). Therefore
-
Pseudolabeling Machine Learning Algorithm for Predictive Maintenance of Relays IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-13 Fabian Winkel, Oliver Wallscheid, Peter Scholz, Joachim Böcker
Predictive maintenance (PdM) has become an important industrial feature. Existing methods mainly focus on remaining useful life (RUL) regression or anomaly detection to achieve PdM in a given application. Those approaches assume monotonic degradation processes leading to a single catastrophic failure at the system's end of lifetime. In contrast, much more complex degradation processes can be found
-
Formal Verification of the Control Software of a Radioactive Material Remote Handling System, Based on IEC 61499 IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-02 Giordano Lilli, Midhun Xavier, Etienne Le Priol, Vincent Perret, Tatiana Liakh, Roberto Oboe, Valeriy Vyatkin
Automation systems within nuclear laboratories are intended to work under harsh operating conditions. Selective Production of Exotic Species (SPES) is a nuclear research facility currently under construction by the Istituto Nazionale di Fisica Nucleare, dedicated to the production and study of radioactive ion beams. Isotopes are produced within the target ion source unit, a vacuum vessel that must
-
A Review on Hybrid Circuit Breakers for DC Applications IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-02 Ana Rafaela Figueiredo Bento, Fernando Bento, Antonio J. Marques Cardoso
Direct current (dc) power system protection presents a major challenge due to its unique characteristics, namely the absence of natural zero current crossing points. Thanks to their features, dc protection devices allow the safe commutation of the fault current. Selective protection and fast fault isolation are key features that any dc circuit breaker should feature, assuring minimal power outages
-
Robust Optimization for Misalignment Tolerance in Inductive Power Transfer Coupler Design IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-10-02 Sampath Jayalath, Azeem Khan
Coupler parameters, such as transmitter inductance ( LTx ), receiver inductance ( LRx ), and the coupling coefficient ( k ) or mutual inductance ( M ), vary with the misalignments. Their variations must be quantified and incorporated into the design and optimization stage as they impact performance indices such as efficiency and leakage magnetic field. Most of the solutions proposed in the literature
-
Enhancing Short-Term Power Load Forecasting for Industrial and Commercial Buildings: A Hybrid Approach Using TimeGAN, CNN, and LSTM IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-09-25 Yushan Liu, Zhouchi Liang, Xiao Li
The application of smart meters was delayed, leading to sparse power load data collection in industrial and commercial buildings, often encompassing only days to a few months of data. In contrast, deep learning models necessitate extensive datasets, spanning several years. To bridge this data deficit, this article proposes a hybrid forecasting method combining time-series generation adversarial network
-
Composite Disturbance Filtering: A Novel State Estimation Scheme for Systems With Multisource, Heterogeneous, and Isomeric Disturbances IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-09-19 Lei Guo, Wenshuo Li, Yukai Zhu, Xiang Yu, Zidong Wang
State estimation has long been a fundamental problem in signal processing and control areas. The main challenge is to design filters with ability to reject or attenuate various disturbances. With the arrival of Big Data era, the disturbances of complicated systems are physically multisource, mathematically heterogenous, affecting the system dynamics via isomeric (additive, multiplicative, and recessive)
-
Toward a Smart Actuating System for Service Robots IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-09-04 Tarik Uzunović, Eray A. Baran, İlkay Turaç Özçelik, Minoru Yokoyama, Tomoyuki Shimono, Asif Šabanović
Owing to the increasing engagement of service robots in everyday life, significant requirements are imposed on their control systems to ensure safe interaction between robots and humans. The stiffness of the motion executed by the service robots is not high, as with industrial robots, but has to be variable depending on the defined task. Therefore, a service robot needs to have soft actuation, delivering
-
Demonstration of Scalable Series-Connected Submodule of Modular-Multilevel-Converter- Based Arbitrary Wave Shape Generator Used for High-Voltage Testing From Off-the-Shelf Component IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-08-30 Dhanashree Ashok Ganeshpure, Thiago Batista Soeiro, Mladen Gagic, Mohamad Ghaffarian Niasar, Pavol Bauer, Peter Vaessen
To test high-voltage (HV) equipment with increasingly complex transients obtained from various power system studies, this article demonstrates a hardware implementation of a medium-voltage (MV) submodule (SM) to be used in a modular multilevel converter (MMC)-based HV arbitrary wave shape generator (AWG). The MV SM is scalable with its own onboard auxiliary power supply (APS), and it is constructed
-
Cascaded Multilevel Structure With Three-Phase and Single-Phase H-Bridges for Open-End Winding Induction Motor Drive IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-08-29 Vitor Fernão Pires, Armando Cordeiro, Daniel Foito, José Fernando Silva, Enrique Romero-Cadaval
A new multilevel topology for an open-end winding motor drive is proposed in this article, presenting a similar structure to the cascaded H-bridge multilevel inverter. The proposed topology combines three-phase and single-phase conventional H-bridge voltage source inverters. The topology is flexible, allowing to increase the number of voltage levels through the simple integration of new single-phase
-
A Single-Stage Switched-Boost Grid-Connected Five-Level Converter With Integrated Active Power Decoupling Under Polluted Grid Voltage Condition IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-08-15 Majid Farhangi, Reza Barzegarkhoo, Ricardo P. Aguilera, Dylan Dah-Chuan Lu, Marco Liserre, Yam P. Siwakoti
Grid-connected inverters with a multilevel output voltage and an integrated dynamic voltage boosting feature are promising to achieve higher overall efficiency/power density, reduced output filter size, and better power quality. However, the input current of such a single-stage system might be pulsating with low- and high-frequency ripple contents in a single-phase grid-connected application. To tackle
-
Variation of Core Loss in High-Frequency Transformers Under Different Load Conditions IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-08-14 Navid Rasekh, Jun Wang, Xibo Yuan
Typically, the core loss of transformers is considered constant, regardless of the load conditions on the secondary side. However, this assumption is no longer valid for high-frequency transformers (HFTs). This article reveals that different load conditions can lead to the core loss in the HFTs deviating from the no-load case due to the variation of voltage drop on the windings' impedance and, subsequently
-
Generalized High-Frequency Injection Framework for Sensorless Control of Synchronous Reluctance Machines IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-07-24 Dmytro Prystupa, Xiaoyan Huang, He Zhang, Vasyl Varvolik, Giampaolo Buticchi, Shuo Wang, Xiaochen Zhang, Jing Li, Chris Gerada
The high-frequency injection (HFI) method is commonly used for sensorless control of synchronous reluctance motors (SynRMs) at low speeds. Injecting a high-frequency (HF) signal in a predefined direction, referred to as the $d$ -axis, and further demodulating the excited signal in the $q$ -axis are a popular sequence for SynRM position tracking. Injection in the $q$ -axis is not usually considered
-
Better Safe Than Sorry: Risk Management Based on a Safety-Augmented Network Intrusion Detection System IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-07-19 Bernhard Brenner, Siegfried Hollerer, Pushparaj Bhosale, Thilo Sauter, Wolfgang Kastner, Joachim Fabini, Tanja Zseby
Interconnected industrial control system (ICS) networks based on routable protocols are susceptible to remote attacks similar to classical information technology (IT) networks. However, addressing ICS security in an isolated view is dangerous since ICSs have to ensure safety measures for people, processes, and the environment. The safety and security of ICSs are often addressed separately, without
-
Shipboard DC Systems—A Critical Overview: Challenges in Primary Distribution, Power-Electronics-Based Protection, and Power Scalability IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-07-13 Alejandro Latorre, Thiago Batista Soeiro, Rinze Geertsma, Andrea Coraddu, Henk Polinder
This article gives an overview of challenges in primary distribution, protections, and power scalability for shipboard dc systems. Given that dc technology is in development, several aspects of shipboard systems have not yet been sufficiently devised to ensure the protection and efficiency demanded. Several issues in dc systems arise from the lack of complete relevant standardization from different
-
A 5G Automated-Guided Vehicle SME Testbed for Resilient Future Factories IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-06-30 Daniel S. Fowler, Yuen Kwan Mo, Alexander Evans, Son Dinh-Van, Bilal Ahmad, Matthew D. Higgins, Carsten Maple
Factory automation design engineers building the smart factory can use wireless fifth-generation (5G) broadband networks for added design flexibility. The 5G new radio builds upon the previous cellular communications' standards to include technology for “massive machine-type communication” and “ultrareliable and low-latency communication.” In this work, the authors augment an automated-guided vehicle
-
Digital-Twin-Based Diagnosis and Tolerant Control of T-Type Three-Level Rectifiers IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-06-28 Ali Sharida, Naheel Faisal Kamal, Hussein Alnuweiri, Sertac Bayhan, Haitham Abu-Rub
This article proposes a digital twin (DT)-based diagnosis and fault-tolerant control for T-type three-level rectifiers. To develop the DT, a dense deep neural network (DNN) machine learning approach is used. The DT is trained offline using a set of experimental data and updated online to get the maximum possible accuracy. Then, the DT is used for the diagnosis and tolerance of open-switch faults (OSFs)
-
Assessing the Effectiveness of Channel Hopping in IEEE 802.15.4 TSCH Networks IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-06-20 Gianluca Cena, Stefano Scanzio, Mohammad Ghazi Vakili, Claudio Giovanni Demartini, Adriano Valenzano
Time slotted channel hopping (TSCH) is an enhanced access mechanism for IEEE 802.15.4 that improves many aspects of the original protocol, like determinism and power consumption. Besides preventing collisions, time slotting allows motes to stay asleep for most of the time. In addition, channel hopping achieves more stable communication, in terms of packet losses and transmission latency, in spite of
-
A Deep Metric Learning-Based Anomaly Detection System for Transparent Objects Using Polarized-Image Fusion IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-06-08 Atsutake Kosuge, Lixing Yu, Mototsugu Hamada, Kazuki Matsuo, Tadahiro Kuroda
While visual inspection systems have been widely used in many industries, their use in the food and optical equipment industries has been limited. Transparent and reflective materials are often used in these applications, but existing anomaly detection (AD) systems have low accuracy in their detection due to low visibility. Here, we developed an AD system using a polarization camera for reflective
-
Coupled Inductor Assisted High-Voltage Gain Half-Bridge Z-Source Inverter IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-05-22 Mohammadamin Aalami, Ebrahim Babaei, Saeid Ghassem Zadeh
A half-bridge-based impedance-source inverter with two T-shaped coupled inductors is proposed in this article. Unlike the conventional half-bridge structure, the proposed topology can generate a zero-voltage level at its output stage. First, the proposed configuration and its modulation method are described, which will analyze the topology's various operational modes. Second, the boost factor is determined
-
Long Prediction Horizon FCS-MPC for Power Converters and Drives IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-05-04 Eduardo Zafra, Sergio Vazquez, Tobias Geyer, Ricardo P. Aguilera, Leopoldo G. Franquelo
Finite control set model predictive control (FCS-MPC) is a salient control method for power conversion systems that has recently enjoyed remarkable popularity. Several studies highlight the performance benefits that long prediction horizons achieve in terms of closed-loop stability, harmonic distortions, and switching losses. However, the practical implementation is not straightforward due to its inherently
-
A 5-Level HERIC Active-Clamped Inverter With Full Reactive Power Capability for Grid-Connected Applications IEEE Open J. Ind. Appl. Electron. Soc. Pub Date : 2023-05-03 Yaroslav Y. Syasegov, Majid Farhangi, Reza Barzegarkhoo, Yam P. Siwakoti, Li Li, Dylan Dah-Chuan Lu, Ricardo P. Aguilera, Josep Pou
Distributed generation systems integrated into the modern electrical grid demand novel circuit architectures that can combine high efficiency and high power density together. The transformerless highly efficient and reliable inverter concept (HERIC) topologies are notable due to their mitigated leakage current concerns, constant common-mode voltage, and high efficiency. Nonetheless, the HERIC-based