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22 results on '"Brahim El bhiri"'

1. Nonlinear robust sliding mode - Backstepping hybrid control for WECS -theoretical design and experimental evaluation

Author

Farah Echiheb, Ismail Elkafazi, Badre Bossoufi, Brahim El bhiri, Mishari Metab Almalki, and Thamer A.H.Alghamdi

Subjects
Doubly fed induction generator DFIG, Maximum power point tracking MPPT, Field oriented control FOC, Sliding mode control SMC, Rotor side converter RSC, Grid side converter GSC, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

This paper proposes a new contribution in the field of optimizing control techniques for wind systems to enhance the quality of the energy produced in the grid. Although the Sliding Mode control technique, whether classical or involving the use of artificial intelligence, has shown interesting results, its main drawback lies in the oscillation phenomenon commonly referred to as “chattering.” This phenomenon affects the accuracy and robustness of the system, as well as the parametric variation of the system. In this work, we propose a solution that combines two nonlinear techniques based on the Lyapunov theorem to eliminate the chattering phenomenon. It is a hybrid approach between the Backstepping strategy and the Sliding Mode, aiming to control the active and reactive powers of the doubly fed induction generator (DFIG) connected to the electrical grid by two converters (grid side and machine side). This hybrid technique aims to improve the performance of the wind system in terms of precision errors, stability, as well as active and reactive power. The proposed solution has been validated in the Matlab & Simulink environment to assess the performance and robustness of the proposed model, as well as experimentally validated on a test bench using the DSPACE 1104 card. The obtained results are then compared with other techniques, demonstrating a significant improvement in performance.

Published
2024
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2. Experimental Analysis of Efficient Dual-Layer Energy Management and Power Control in an AC Microgrid System

Author

Youssef Akarne, Ahmed Essadki, Tamou Nasser, and Brahim El Bhiri

Subjects
Microgrid, energy management system, wind turbine system, photovoltaic system, energy storage system, control systems, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

This paper presents a dual-layer approach for managing and controlling an AC Microgrid (MG). The MG integrates a Photovoltaic System (PVS), Wind Turbine System (WTS), a Battery Storage System (BSS), all interconnected with the utility grid. The dual-layer is structured into a Control Layer (CL) and an Energy Management System Layer (EMS-L). The CL proposes an efficient model coupled with a system control, ensuring high power quality for the AC microgrid. This system employs a Particle Swarm Optimization (PSO) algorithm to optimize the set point tracking performance. Simultaneously, the EMS-L utilizes a Sparrow Search Algorithm (SSA) with the objective of minimizing the total operating costs of the AC microgrid. This is achieved by employing a 15-minutes step time over a 24-hours period, enhancing both precision and rapidity of the system’s operation. This enhanced temporal resolution effectively models and responds to fluctuations in energy demand, supply variability and environmental factors. This synergistic integration allows for nuanced and efficient energy flow management in order to optimise the MG performance. A significant aspect of the research is the comparative analysis of the proposed SSA-EMS with PSO and Genetic Algorithm (GA), alongside an unoptimized system. This analysis highlights the hybrid methodology’s superior efficiency and effectiveness. The robust framework, combining SSA at the EMS layer with PSO at the control layer, has been empirically tested using a real world data to confirm its effectiveness and resilience in practical scenarios. These tests provide solid evidence of the methodology’s potential in boosting the sustainable and reliable operation of microgrids. Significantly, the SSA-EMS showcases notable cost efficiency, achieving reductions of 33.34% and 41.18% compared to PSO and GA. Impressively, compared to an unoptimized system, the SSA-EMS demonstrates an even more remarkable cost reduction of 49.43% and 59.10% while considering the impact on battery health constraints.

Published
2024
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3. Towards revolutionizing precision healthcare: A systematic literature review of artificial intelligence methods in precision medicine

Author

Wafae Abbaoui, Sara Retal, Brahim El Bhiri, Nassim Kharmoum, and Soumia Ziti

Subjects
Precision medicine, Artificial intelligence, Machine learning, Deep learning, Health care, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

In the realm of medicine, artificial intelligence (AI) has emerged as a transformative force, harnessing the power to convert raw data into meaningful insights. Rather than supplanting the discernment of physicians, AI serves as an unprecedented enabler, equipping them with unimaginable tools. Its far-reaching applications encompass drug discovery, disease diagnosis, prognosis, treatment optimization, and outcome prediction. This technological revolution owes much to the prowess of machine learning algorithms, which adeptly process multifaceted data. Consequently, AI is poised to become an integral pillar of digital health systems, shaping and bolstering the realm of personalized medicine. The current landscape is abuzz with AI’s exponential growth, fueling a surge of research ventures aimed at enhancing medical practices. By delving into the realm of precision medicine, this paper endeavors to scrutinize and evaluate recent advancements in healthcare pertaining to the utilization of machine learning (ML) and deep learning (DL) algorithms. This systematic review comprehensively encompasses previously published works, dissecting key concepts, innovations, significant contributions, and pivotal enabling techniques. Aspiring to equip readers with a profound understanding and invaluable insights, this paper proves indispensable to those dedicated to exploring the state-of-the-art and contributing to future literature in this domain.

Published
2024
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4. Integrated Control and Optimization for Grid-Connected Photovoltaic Systems: A Model-Predictive and PSO Approach

Author

Chaymae Boubii, Ismail El Kafazi, Rachid Bannari, Brahim El Bhiri, Saleh Mobayen, Anton Zhilenkov, and Badre Bossoufi

Subjects
photovoltaic system, maximum power point tracking, model predictive control, incremental conductance, particle swarm optimization, Technology
Abstract

To propel us toward a greener and more resilient future, it is imperative that we adopt renewable sources and implement innovative sustainable solutions in response to the escalating energy crisis. Thus, renewable energies have emerged as a viable solution to the global energy crisis, with photovoltaic energy being one of the prominent sources in this regard. This paper represents a significant step in the desired direction by focusing on detailed, comprehensive dynamic modeling and efficient control of photovoltaic (PV) systems as grid-connected energy sources. The ultimate goal is to enhance system reliability and ensure high power quality. The behavior of the suggested photovoltaic system is tested under varying sun radiation conditions. The PV system is complemented by a boost converter and a three-phase pulse width modulation (PWM) inverter, with MATLAB software employed for system investigation. This research paper enhances photovoltaic (PV) system performance through the integration of model-predictive control (MPC) with a high-gain DC–DC converter. It improves maximum power point tracking (MPPT) efficiency in response to the variability of solar energy by combining MPC with the traditional incremental conductance (IN-C) method. Additionally, the system incorporates a DC–AC converter for three-phase pulse width modulation, which is also controlled by predictive control technology supported by Particle Swarm Optimization (PSO) to further enhance performance. PSO was selected due to its capability to optimize complex systems and its proficiency in handling nonlinear functions and multiple variables, making it an ideal choice for improving MPC control performance. The simulation results demonstrate the system’s ability to maintain stable energy production despite variations in solar irradiation levels, thus highlighting its effectiveness.

Published
2023
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5. A Systematic Literature Review on Authentication and Threat Challenges on RFID Based NFC Applications

Author

Ismail El Gaabouri, Mohamed Senhadji, Mostafa Belkasmi, and Brahim El Bhiri

Subjects
RFID, cryptography, IoT, smart cards, security, systematic literature review, Information technology, T58.5-58.64
Abstract

The Internet of Things (IoT) concept is tremendously applied in our current daily lives. The IoT involves Radio Frequency Identification (RFID) as a part of the infrastructure that helps with the data gathering from different types of sensors. In general, security worries have increased significantly as these types of technologies have become more common. For this reason, manifold realizations and studies have been carried out to address this matter. In this work, we tried to provide a thorough analysis of the cryptography-based solutions for RFID cards (MIFARE cards as a case study) by performing a Systematic Literature Review (SLR) to deliver the up-to-date trends and outlooks on this topic.

Published
2023
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6. A Novel Hybrid Imperialist Competitive Algorithm–Particle Swarm Optimization Metaheuristic Optimization Algorithm for Cost-Effective Energy Management in Multi-Source Residential Microgrids

Author

Ssadik Charadi, Houssam Eddine Chakir, Abdelbari Redouane, Abdennebi El Hasnaoui, and Brahim El Bhiri

Subjects
imperialist competitive algorithm, particle swarm optimization, photovoltaic, wind turbine, energy flow management, microgrids, Technology
Abstract

The integration of renewable sources and energy storage in residential microgrids offers energy efficiency and emission reduction potential. Effective energy management is vital for optimizing resources and lowering costs. In this paper, we propose a novel approach, combining the imperialist competitive algorithm (ICA) with particle swarm optimization (PSO) as ICA-PSO to enhance energy management. The proposed energy management system operates in an offline mode, anticipating data for the upcoming 24 h, including consumption predictions, tariff rates, and meteorological data. This anticipatory approach facilitates optimal power distribution among the various connected sources within the microgrid. The performance of the proposed hybrid ICA-PSO algorithm is evaluated by comparing it with three selected benchmark algorithms, namely the genetic algorithm (GA), ICA, and PSO. This comparison aims to assess the effectiveness of the ICA-PSO algorithm in optimizing energy management in multi-source residential microgrids. The simulation results, obtained using Matlab 2023a, provide clear evidence of the effectiveness of the hybrid ICA-PSO algorithm in achieving optimal power flows and delivering substantial cost savings. The hybrid algorithm outperforms the benchmark algorithms with cost reductions of 4.47%, 14.93%, and 26% compared to ICA, PSO, and GA, respectively. Furthermore, it achieves a remarkable participation rate of 50.6% for renewable resources in the energy mix, surpassing the participation levels of the ICA (42.88%), PSO (40.51%), and GA (38.95%). This research contributes to the advancement of power flow management techniques in the context of multi-source residential microgrids, paving the way for further research and development in this field.

Published
2023
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7. A Formal Energy Consumption Analysis to Secure Cluster-Based WSN: A Case Study of Multi-Hop Clustering Algorithm Based on Spectral Classification Using Lightweight Blockchain

Author

Yves Frédéric Ebobissé Djéné, Mohammed Sbai El Idrissi, Pierre-Martin Tardif, Ali Jorio, Brahim El Bhiri, and Youssef Fakhri

Subjects
security, cryptography, clustering, energy, wireless sensors network, Chemical technology, TP1-1185
Abstract

Wireless Sensors Networks are integrating human daily life at a fast rate. Applications cover a wide range of fields, including home security, agriculture, climate change, fire prevention, and so on and so forth. If WSN were initially flat networks, hierarchical, or cluster-based networks have been introduced in order to achieve a better performance in terms of energy efficiency, topology management, delay minimization, load balancing, routing techniques, etc. As cluster-based algorithms proved to be efficient in terms of energy balancing, security has been of less importance in the field. Data shared by nodes in a WSN can be very sensitive depending on the field of application. Therefore, it is important to ensure security at various levels of WSN. This paper proposes a formal modeling of the energy consumed to secure communications in a cluster-based WSN in general. The concept is implemented using the Proof of Authentication (POAh) paradigm of blockchain and applied to a Multi-hop Clustering Algorithm based on spectral classification. The studied metrics are residual energy in the network, the number of alive nodes, first and last dead node.

Published
2022
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9. Business Value Creation Through Project Management Based on Big Data Approach

Author

Hamid Chennouk, El Houssaine Ziyati, and Brahim El Bhiri

Subjects
Information Systems
Abstract

In the era of big data, the high level of businesses’ digitalization, and new technology development in various fields, awash companies in a flood of massive amounts of data. Dealing with that fact is non more an option. Companies have to reexamine the way they do business in order to gain benefits from big data. Consequently, they have to review their approach of managing projects in order to create the added value. For the purpose of assessing this issue, we have adopted a research approach built on two phases. In the first, we have performed a systematic literature review to spot the gaps in the current research. The results have revealed that so far, no scientific work has discussed how companies can create business value through project management in a big data context. These results have also shown significant contributions of the research community on how big data contributes to value creation in organizations. In the second, we have suggested an approach to fills the identified gap by proposing a framework that support project management process in big data environment.

Published
2022

14. Smart Mobility and Industrial Technologies : The Quality of Life in Sustainable Cities

Author

Brahim El Bhiri, Rajaa Saidi, Mohammed Essaaidi, Naima Kaabouch, Brahim El Bhiri, Rajaa Saidi, Mohammed Essaaidi, and Naima Kaabouch

Subjects
Technology—Sociological aspects, Information technology, Signal processing, Computer engineering, Computer networks, Technological innovations
Abstract

This book discusses many issues related to the impact of advanced technologies on quality of human life. It covers several areas and use cases that illustrate how technologies could be harnessed to solve all kinds of humanity issues in areas as diverse as education, health care, industry, agriculture, mobility, etc. Specially, it aims at establishing the vital link between advances in technology and sustainable development to magnify the benefits. This book covers a wide range of audience including academic/research, professors, scientists, and engineers working in different fields, comprising engineering, sustainability, as well as government and international organizations officials interested in sustainable planning. This is done through a set of selected papers from those presented to 4th International Conference on Advanced Technologies for Humanity (ICATH'2022) which was organized by the Moroccan School of Engineering Sciences (EMSI) in collaboration with national and international institutions. ICATH22 was held in Marrakech, from November 11 to 12, 2022. Key topics showcasing how technology can serve humanity in different ways and facets of human life, activities, and challenges are covered in depth through the chapters of this book which are presented in four different sections, namely:1. Advanced Technologies for smart Mobility in Smart Cities.2. Emerging Technologies for Connectivity in Sustainable Cities.3. Transitioning to Sustainable Industrial Engineering. 4. Technology for Human Sciences as Key Components of Sustainability.

Published
2024

15. Industrial Innovations: New Technologies in Cities' Digital Infrastructures : Proceeding of the 5th International Conference on Advanced Technologies and Humanity (ICATH'2023)

Author

Brahim El Bhiri, Safae MERZOUK, Saliha ASSOUL, Brahim El Bhiri, Safae MERZOUK, and Saliha ASSOUL

Subjects
Sustainability, Economic development, Artificial intelligence
Abstract

“Industrial Innovations: New Technologies in Cities'Digital Infrastructures” is a comprehensive proceedings book that delves into the latest research and practices shaping the industrial landscape in urban settings. In today's rapidly evolving technological landscape, the integration of digital advancements has become increasingly crucial for optimizing industrial processes and enhancing efficiency. Through a series of insightful contributions, this book explores various aspects of digital advancements in industrial processes. Readers will gain valuable insights into topics such as machine learning for export pattern identification, AI-driven predictive maintenance methods, and the integration of digital technologies in distribution supply chains. These discussions shed light on how digital innovations are revolutionizing traditional industrial practices, leading to more streamlined operations and improved outcomes. Additionally, the book examines the role of digital twins in improving business processes by providing virtual simulations and optimizations. This concept enables businesses to enhance their operational efficiency and make informed decisions based on real-time data analysis. Moreover, the impact of digital visual management systems on workplace safety is explored, highlighting the importance of leveraging technology to mitigate risks and ensure a safer working environment. Furthermore, systematic mapping studies shed light on the intersection of green and digital supply chain innovation. By exploring how digital technologies can be leveraged to create more sustainable industrial practices, these studies offer potential avenues for reducing environmental impact and promoting long-term sustainability in industrial operations. With its diverse range of topics and contributions, “Industrial Innovations: New Technologies in Cities'Digital Infrastructures” serves as a valuable resource for researchers, industry professionals, and policymakers interested in the intersection of technology and industrial innovation in urban environments. It offers insights into the latest advancements and best practices in leveraging digital technologies to optimize industrial processes and drive sustainable development in cities worldwide.

Published
2024

16. Advances in Smart Materials and Innovative Buildings Construction Systems : Proceedings of the 4th International Conference on Advanced Technologies for Humanity (ICATH'2022)

Author

Ayman S. Mosallam, Brahim El Bhiri, Vistasp M. Karbhari, Shadi Saadeh, Ayman S. Mosallam, Brahim El Bhiri, Vistasp M. Karbhari, and Shadi Saadeh

Subjects
Sustainability, Buildings—Design and construction, Sustainable architecture
Abstract

This book contains a comprehensive guide to the latest developments in building and bridge construction. The book covers a wide range of topics, including the use of advanced materials such as fiber-reinforced polymer (FRP) composites and the incorporation of smart technologies into design and construction of buildings and bridges.The book discusses advantages of using FRP composites in building and bridge construction. It then goes on to explore the use of smart technologies, such as sensors and structural health monitoring systems, to improve performance and safety of structures. It also covers the use of advanced concrete and masonry materials and methods, including high-performance concrete, self-consolidating concrete, and advanced masonry systems.The book is written for engineers, architects, and construction professionals and provides a detailed overview of the latest research and developments in the field. It includes case studies and practical examples to illustrate key concepts and techniques, making it an invaluable resource for those involved in building and bridge construction. With its comprehensive coverage of the latest advances in building and bridge construction,'Advances in Concrete, Masonry and FRP Composite Smart Buildings and Bridges'is an essential guide for anyone looking to stay current with the latest trends and technologies in the industry.

Published
2023

19. Advanced Technologies for Humanity : Proceedings of International Conference on Advanced Technologies for Humanity (ICATH'2021)

Author

Rajaa Saidi, Brahim El Bhiri, Yassine Maleh, Ayman Mosallam, Mohammed Essaaidi, Rajaa Saidi, Brahim El Bhiri, Yassine Maleh, Ayman Mosallam, and Mohammed Essaaidi

Subjects
Engineering mathematics, Engineering—Data processing, Computational intelligence, Environmental sciences—Social aspects
Abstract

This book gathers the proceedings of the International Conference on Advanced Technologies for Humanity (ICATH'2021), held on November 26-27, 2021, in INSEA, Rabat, Morocco. ICATH'2021 was jointly co-organized by the National Institute of Statistics and Applied Economics (INSEA) in collaboration with the Moroccan School of Engineering Sciences (EMSI), the Hassan II Institute of Agronomy and Veterinary Medicine (IAV-Hassan II), the National Institute of Posts and Telecommunications (INPT), the National School of Mineral Industry (ENSMR), the Faculty of Sciences of Rabat (UM5-FSR), the National School of Applied Sciences of Kenitra (ENSAK) and the Future University in Egypt (FUE).ICATH'2021 was devoted to practical models and industrial applications related to advanced technologies for Humanity. It was considered as a meeting point for researchers and practitioners to enable the implementation of advanced information technologies into various industries. This bookis helpful for PhD students as well as researchers.The 48 full papers were carefully reviewed and selected from 105 submissions. The papers presented in the volume are organized in topical sections on synergies between (i) smart and sustainable cities, (ii) communication systems, signal and image processing for humanity, (iii) cybersecurity, database and language processing for human applications, (iV) renewable and sustainable energies, (V) civil engineering and structures for sustainable constructions, (Vi) materials and smart buildings and (Vii) Industry 4.0 for smart factories.All contributions were subject to a double-blind review. The review process was highly competitive. We had to review 105 submissions from 12 countries. A team of over 100 program committee members and reviewers did this terrific job. Our special thanks go to all of them.

Published
2022

21. Spectral classification for a robust clustering in an Heterogenous Wireless Sensor Networks

Author

Ali Jorio, Brahim El Bhiri, and Rafiqa Zerououl

Subjects
Routing protocol, Supervisor, business.industry, Computer science, Spectral graph theory, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Graph (abstract data type), Cluster analysis, business, Wireless sensor network, Protocol (object-oriented programming), Energy (signal processing), Computer network
Abstract

Wireless sensor network is one of the most attractive areas of research. It consists of low power, low-cost and energy-constrained sensors. Those sensors monitor and report data to the sink, where the supervisor can analyze and take decisions. Saving energy and extending the wireless sensor network lifetime, occupies great challenges. The clustering procedure reduces strongly direct transmissions which consumes hardly the nodes energy. This work proposes a new protocol called “The Efficient Routing Protocol for HWSN” (ERP-HWSN). This protocol uses spectral graph theory in Unbalanced Graph in order to divide the network such that each cluster contains the highest inter-correlated sensors. The results show that our protocol enlarges largely the network lifetime compared to the DEEC one.

Published
2018

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