Your search keyword '"Mehdi Rafiei"' showing total 10 results

1. An Energy Efficient Solution for Fuel Cell Heat Recovery in Zero-Emission Ferry Boats: Deep Deterministic Policy Gradient

Author

Mohammad Hassan Khooban, Meysam Gheisarnejad, Moseyeb Afshari-igder, Hoda Ahmadi, and Mehdi Rafiei

Subjects

Organic Rankine cycle, Computer Networks and Communications, Energy management, Aerospace Engineering, Proton exchange membrane fuel cell, Automotive engineering, Heat recovery ventilation, Waste heat, Automotive Engineering, Environmental science, Electrical and Electronic Engineering, Energy source, Zero emission, Efficient energy use

Abstract

All-electric ships (AES) are regarded as a promising solution for decreasing greenhouse gas emissions since they are able to utilize clean technologies like fuel cells instead of fossil fuel. A zero-emission hybrid energy system comprising the Proton Exchange Membrane (PEM) fuel cell, battery, cold-ironing, and Recuperative organic Rankine cycle (RORC) is scrutinized in this paper. To use the waste heat produced by PEM fuel cells, a hybrid system which is composed of PEM fuel cells and RORC is suggested. In order to analyze this zero-emission all-electric ship, the real data of a ferry boat, containing the load profiles and routes is used to appraise the possibility of the suggested hybrid system. The structure of the boat and energy sources, along with mathematical models, are represented and examined. Eventually, the hourly energy management of the boat for one specific day is analyzed, and also, to optimize the power dispatch, the Deep Deterministic Policy Gradient (DDPG) is applied in actor-critic architecture. To corroborate the proposed models, the MATLAB software is employed. According to obtained results, the proposed models could ensure effective and efficient ways in marine vessels due to not only their high performances but also permissible energy cost to be a zero-emission ship.

Published

2021

2. An Intelligent and Fast Controller for DC/DC Converter Feeding CPL in a DC Microgrid

Author

Mohammad Hassan Khooban, Hamed Farsizadeh, Mehdi Rafiei, Meysam Gheisarnejad, and Mahdi Mosayebi

Subjects

Computer science, Converters, Fuzzy logic, non-integer controller, constant power load (CPL), Control theory, Modulation, Boost converter, DC microgrid, type-II fuzzy system, Microgrid, Electrical and Electronic Engineering, modified sine-cosine optimization algorithm, Dc dc converter, Electrical impedance

Abstract

The negative impedance characteristic of the constant power loads (CPLs) causes instability in DC/DC converters in the DC microgrids. To improve the stability of the DC/DC converter feeding CPLs, a robust and fast controller is required. This paper presents a robust pulse-width modulation-based type-II fuzzy controller for a DC/DC boost converter feeding the CPL in a DC microgrid. Theoretical analysis and real-time simulation are presented to demonstrate the effectiveness of the proposed non-integer intelligent controller. Finally, the experimental results demonstrate that the proposed intelligent controller for the DC/DC converter has a faster and more robust response in comparison to the previously suggested control techniques.

Published

2020

3. Computer Vision on X-ray Data in Industrial Production and Security Applications: A Comprehensive Survey

Author

Mehdi Rafiei, Jenni Raitoharju, and Alexandros Iosifidis

Subjects

FOS: Computer and information sciences, General Computer Science, Computer Vision and Pattern Recognition (cs.CV), security applications, röntgensäteily, Computer Science - Computer Vision and Pattern Recognition, General Engineering, deep learning, syväoppiminen, computer vision, X-ray, industrial applications, konenäkö, General Materials Science, Electrical and Electronic Engineering

Abstract

X-ray imaging technology has been used for decades in clinical tasks to reveal the internal condition of different organs, and in recent years, it has become more common in other areas such as industry, security, and geography. The recent development of computer vision and machine learning techniques has also made it easier to automatically process X-ray images and several machine learning-based object (anomaly) detection, classification, and segmentation methods have been recently employed in X-ray image analysis. Due to the high potential of deep learning in related image processing applications, it has been used in most of the studies. This survey reviews the recent research on using computer vision and machine learning for X-ray analysis in industrial production and security applications and covers the applications, techniques, evaluation metrics, datasets, and performance comparison of those techniques on publicly available datasets. We also highlight some drawbacks in the published research and give recommendations for future research in computer vision-based X-ray analysis., Comment: 32pages, 20 figures, 12 tables. A literature review paper. Journal

Published

2022

4. Reliability and Safety Improvement of Emission-Free Ships:Systemic Reliability Centered Maintenance

Author

Mohammad Hassan Khooban, Jalil Boudjadar, Mehdi Rafiei, and Mosayeb Afshari Igder

Subjects

Schedule, 021103 operations research, Computer science, business.industry, 020209 energy, 0211 other engineering and technologies, Optimal maintenance, Energy Engineering and Power Technology, Transportation, 02 engineering and technology, Maintenance engineering, Reliability engineering, Electric power system, Distributed generation, Automotive Engineering, 0202 electrical engineering, electronic engineering, information engineering, Microgrid, Electrical and Electronic Engineering, business, Energy source, Reliability (statistics)

Abstract

The power system of an all-electric ship (AES) establishes an independent microgrid using the distributed energy resources, energy storage devices, and power electronic converters. As a hybrid energy system (HES), the power system of an AES works as a unified system where each part can affect the reliability of the other parts. The systemic reliability centered maintenance (SRCM), which efficiently enhances the reliability and safety of the AES by identifying optimal maintenance tasks of the AES, is considered in this article to apply to the entire system. In order to calculate the reliability and optimal maintenance schedule, the Markov process and Enhanced JAYA (EJAYA) are utilized. A layer of protection analysis (LOPA), which is a risk management technique, is adopted to assess the safety of the system. A hybrid molten carbonate fuel cell, photovoltaic (PV), and lithium-ion battery are considered as energy sources of the AES. Based on two common standards, DNVGL-ST-0033 and DNVGL-ST-0373, the suggested maintenance planning method can be used in industrial applications. Eventually, in order to validate the proposed method, a model-in-the-loop real-time simulation using dSPACE is carried out. The obtained results show the applicability and efficiency of the proposed method for improving reliability and safety.

Published

2021

5. Energy Management of a Zero-Emission Ferry Boat with a Fuel Cell-Based Hybrid Energy System: Feasibility Assessment

Author

Jalil Boudjadar, Mohammad Hassan Khooban, and Mehdi Rafiei

Subjects

Pollutant, Battery (electricity), Computer science, business.industry, Energy management, Energy resources, Automotive engineering, Software, Resource (project management), Control and Systems Engineering, Hybrid system, Fuel cells, Electrical and Electronic Engineering, Energy system, business, Zero emission, Energy (signal processing)

Abstract

Due to the increasing impacts of ships pollutants on the environment and the preventive laws that are tightening every day, the utilization of all-electric ships is a recent emerging technology. Being a promising technology, the usage of fuel cells as the main energy resource of marine vessels is an interesting choice. In this article, an all-electric hybrid energy system with zero emission based on fuel cell, battery, and cold-ironing is proposed and analyzed. To this end, actual data of a ferry boat, including load profiles and paths, are considered to assess the feasibility of the proposed energy system. The configuration of the boat and energy resources as well as the problem constraints are modeled and analyzed. Finally, the boat's energy management in hourly form for a one-day period is implemented. The improved sine cosine algorithm is used for the power dispatch optimization, and all models are implemented in MATLAB software. Based on the analysis results, the proposed hybrid system and the energy management method have high performance as an applicable method for the marine vessels. In addition, to be a zero-emission ship, the proposed system has an acceptable energy cost.

Published

2021

6. Reliable Power Scheduling of an Emission-Free Ship:Multi-Objective Deep Reinforcement Learning

Author

Mohammad Hassan Khooban, Meysam Gheisarnejad, Mehdi Rafiei, and Saeed Hasanvand

Subjects

loss of load expectation (LOLE), Deep Reinforcement Learning, Deep reinforcement learning (RL), energy management, zero-emission ships, Computer science, Energy management, 020209 energy, Energy Engineering and Power Technology, Transportation, Power system reliability, 02 engineering and technology, Load profile, fuel cell, Batteries, MICROGRIDS, PROPULSION, 0202 electrical engineering, electronic engineering, information engineering, Reinforcement learning, STRATEGY, ALGORITHM, Electrical and Electronic Engineering, Fuel cells, OPTIMIZATION, business.industry, 020208 electrical & electronic engineering, Fossil fuel, Ferry boat, Reliability, Battery energy storage system, Boats, hardware-in-the-loop (HIL), Reliability engineering, Renewable energy, Automotive Engineering, OPERATION, ENERGY-MANAGEMENT, business, SYSTEM

Abstract

Environmental pollutants, as a global concern, have led to a general increase in the utilization of renewable energy resources instead of fossil fuels. Accordingly, the penetration of these resources in all-electric ships, as well as power grids, has increased in recent years. In this article, in order to have a zero-emission and cost-effective energy management in an all-electric ferry boat, a new reliable and optimal power scheduling is presented that uses fuel cell and battery energy storage systems. Furthermore, the real information including load profile and paths is considered for the case study to assess the feasibility and superiority of the proposed approach. In addition to the cost of energy management, to have a reliable combination of the proposed resources, the loss of load expectation (LOLE) as a reliability index is considered in the energy management context and the problem is solved by the deep reinforcement learning in a multiobjective manner. The results of the consideration of two common standards, including DNVGL-ST-0033 and DNVGL-ST-0373, demonstrate that the proposed energy management method is applicable in industrial applications. Finally, the real-time simulation-based hardware-in-the-loop (HIL) is conducted to validate the performance and efficacy of the suggested power scheduling for the emission-free ships.

Published

2020

7. A Novel Approach to Overcome the Limitations of Reliability Centered Maintenance Implementation on the Smart Grid Distance Protection System

Author

Jalil Boudjadar, Mohammad Hassan Khooban, Mehdi Rafiei, and Mosayeb Afshari Igder

Subjects

Computer science, 020209 energy, media_common.quotation_subject, 020208 electrical & electronic engineering, Optimal maintenance, Markov process, 02 engineering and technology, Plan (drawing), Maintenance engineering, Reliability engineering, symbols.namesake, Smart grid, 0202 electrical engineering, electronic engineering, information engineering, Task analysis, symbols, Electrical and Electronic Engineering, Function (engineering), Reliability (statistics), media_common

Abstract

This brief proposes a novel approach to apply reliability centered maintenance (RCM) on a distance protection system in a smart grid. In the proposed approach, instead of focusing on individual equipment, the RCM is implemented for the whole protection system. The approach helps to calculate the reliability of protection systems by overcoming the limitation of their hidden function and also considering the effect of all system equipment on reliability. Markov process and improved Jaya algorithm (IJA) are used to calculate the reliability and find the optimal maintenance plan. The proposed approach has been applied to real data of smart grid distance protection systems, which results in a higher level of reliability and less cost. Furthermore, in order to validate the suggested technique and its efficiency, the simulation is carried out using a real-time digital simulators and hardware-in-the-loop testing equipment known as opal-RT technology.

Published

2020

8. Simultaneous energy management and optimal components sizing of a zero-emission ferry boat

Author

Jalil Boudjadar, Mohammad Hassan Khooban, Armin Letafat, Mohsen Banaei, Mosayeb Afshari-Igder, Morteza Sheikh, and Mehdi Rafiei

Subjects

Work (thermodynamics), Renewable Energy, Sustainability and the Environment, Energy management, Computer science, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, 021001 nanoscience & nanotechnology, Environmentally friendly, Automotive engineering, Sizing, Energy storage, 0202 electrical engineering, electronic engineering, information engineering, Electric power, Electrical and Electronic Engineering, 0210 nano-technology, Zero emission, Efficient energy use

Abstract

Due to environmental and economic issues as well as the high performance of marine vessels, efficient energy using has been becoming more demanding. Also, in order to have a zero-emission ship, the utilization of a fuel cell combined with energy storage such as batteries gets more and more attention. In this work, a zero-emission hybrid energy system, including fuel cells, batteries, and cold-ironing, is employed to have an environmentally friendly vessel, and to create condition in which ship operates with high performance, both energy management and components sizing of fuel cells and batteries using real data of ferry boat and intelligent optimization method are done simultaneously. In addition, all constraints related to energy management and component sizing with the topography of the boat and electric power sources are represented and analyzed thoroughly. Ultimately, hourly energy management and component sizing for one specific day are considered in this work, and to optimize this problem, the Improved Sine Cosine Algorithm (ISCA) is utilized. According to obtained results, the proposed energy management and component sizing result in the high-performance ship which could be utilized in the marine industry.

Published

2020

9. Probabilistic Forecasting of Hourly Electricity Price by Generalization of ELM for Usage in Improved Wavelet Neural Network

Author

Mohammad Hassan Khooban, Mehdi Rafiei, and Taher Niknam

Subjects

Artificial neural network, business.industry, Computer science, Electricity price forecasting, 020209 energy, Probabilistic logic, Wavelet transform, 02 engineering and technology, Machine learning, computer.software_genre, Computer Science Applications, Wavelet, Control and Systems Engineering, 0202 electrical engineering, electronic engineering, information engineering, Artificial intelligence, Probabilistic forecasting, Electrical and Electronic Engineering, business, computer, Information Systems, Extreme learning machine

Abstract

In restructured markets where transactions process is competitive, forecasting of electricity price is inevitably an important available tool for market participants. Due to the sensitivity of forecasting issues in market's performance, and high prediction error resulted from the behavior of price series, nowadays probabilistic forecasting highly attracted participants’ attention. In this paper, a probabilistic approach for the hourly electricity price forecasting is presented. In the proposed method, the uncertainty of predictor model is considered as the uncertainty factor. The bootstrapping technique is used to implement the uncertainty and since the method is needed to be fast and of low computational cost in the daily forecasting, a generalized learning method is applied, which has high accuracy and speed. This newly presented learning method is based on generalized extreme learning machine approach to be used for improved wavelet neural networks. Also in order to reach more accommodation, the predictor model with the changes of price time series, the wavelet preprocessing is used. Effective performance of the proposed model is validated by testing on data of Ontario and Australian electricity markets.

Published

2017

10. Energy Management of Hybrid Diesel/Battery Ships in Multidisciplinary Emission Policy Areas

Author

Jalil Boudjadar, Mohammad Hassan Khooban, Mehdi Rafiei, Mohsen Banaei, and Fatemeh Ghanami

Subjects

Battery (electricity), Control and Optimization, energy management, Energy management, Computer science, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, Sea state, Propulsion, lcsh:Technology, Automotive engineering, Diesel fuel, Maritime industry, hybrid diesel/battery ships, emission management, Genetic algorithm, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Engineering (miscellaneous), lcsh:T, Renewable Energy, Sustainability and the Environment, 020208 electrical & electronic engineering, Energy consumption, Wind direction, Energy (miscellaneous), Efficient energy use

Abstract

All-electric ships, and especially the hybrid ones with diesel generators and batteries, have attracted the attention of maritime industry in the last years due to their less emission and higher efficiency. The variant emission policies in different sailing areas and the impact of physical and environmental phenomena on ships energy consumption are two interesting and serious concepts in the maritime issues. In this paper, an efficient energy management strategy is proposed for a hybrid vessel that can effectively consider the emission policies and apply the impacts of ship resistant, wind direction and sea state on the ships propulsion. In addition, the possibility and impact of charging and discharging the carried electrical vehicles’ batteries by the ship is investigated. All mentioned matters are mathematically formulated and a general model of the system is extracted. The resulted model and real data are utilized for the proposed energy management strategy. A genetic algorithm is used in MATLAB software to obtain the optimal solution for a specific trip of the ship. Simulation results confirm the effectiveness of the proposed energy management method in economical and reliable operation of the ship considering the different emission control policies and weather condition impacts.

Published

2020