Mohammad Hassan Nazari | Cybersecurity | Best Researcher Award

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Dr. Mohammad Hassan Nazari | Cybersecurity | Best Researcher Award

Faculty Memebr of Niroo Research Institute, Iran

Summary:

Dr. Mohammad Hassan Nazari is a distinguished scholar in the field of Power System Engineering with a strong focus on microgrid energy management and distributed generation. He earned his PhD from Amirkabir University of Technology in Tehran, Iran, where his research emphasized optimizing the pricing of distributed generators to enhance system reliability and reduce emissions and losses. Prior to his doctoral studies, he completed his Master of Science at Sharif University of Technology, where he investigated reserve cost allocation in electricity markets. Dr. Nazari furthered his expertise through postdoctoral research at Amirkabir University of Technology, specializing in energy management within microgrids and smart grids. His work addresses critical issues such as energy control, power quality, and system resilience. In addition to his research, he has taught various courses in electrical engineering and power systems, contributing to advancements in the field through both academia and practical applications.

Profile:

Education:

Dr. Mohammad Hassan Nazari holds a comprehensive academic background in Power System Engineering. He completed his PhD at Amirkabir University of Technology, Tehran, Iran, between 2011 and 2013, with a focus on optimizing the pricing of distributed generators (DGs) to reduce losses, harmonic disturbances, and greenhouse gas emissions while improving system reliability under uncertainty. Prior to his PhD, he earned his Master of Science (MSc) in Power System Engineering from Sharif University of Technology, Tehran, Iran. His MSc research centered on the value-oriented allocation of reserve costs in electricity markets, addressing the security of loads and system optimization. Additionally, Dr. Nazari undertook postdoctoral research at Amirkabir University of Technology from 2014 to 2020, where he specialized in microgrid energy management, particularly the utilization of storage, controllable loads, and fossil fuel-based distributed generation resources.

Professional Experience:

Dr. Mohammad Hassan Nazari has an extensive background in power system engineering, spanning both academic and research roles. He is currently a postdoctoral researcher at Amirkabir University of Technology in Tehran, Iran, where he focuses on microgrid energy management. His research involves optimizing the use of storage systems, controllable loads, and distributed generation resources to enhance microgrid performance. Prior to his current role, Dr. Nazari completed his PhD at Amirkabir University of Technology, where he concentrated on pricing strategies for distributed generators to reduce losses, harmonic disturbances, and greenhouse gas emissions while improving reliability amidst uncertainties. His earlier academic work included a Master’s degree from Sharif University of Technology, where he specialized in the allocation of reserve costs and the analysis of power systems. In addition to his research, Dr. Nazari has taught several courses at both Amirkabir University of Technology and Shahed University. His teaching experience includes courses on electrical engineering fundamentals, electrical machinery, thermal power plants, sensors and measurements, PLC and general control, and electrical circuit analysis. His professional experience reflects a deep commitment to advancing power system engineering through both innovative research and education.

Research Interests:

Dr. Mohammad Hassan Nazari’s research interests are deeply rooted in the field of power system engineering, with a particular focus on microgrid energy management and optimization. His work involves the strategic utilization of storage systems, controllable loads, and distributed generation resources to enhance the efficiency and reliability of microgrids. Dr. Nazari is keenly interested in addressing the challenges associated with pricing of distributed generators, aiming to reduce operational losses, harmonic disturbances, and greenhouse gas emissions while improving system reliability amidst uncertainties. Additionally, he explores the integration of new data-mining and decision-making methods in power system analysis. His research also encompasses the study and enhancement of power quality, reliability, and resilience in both microgrids and smart grids, as well as the restructuring and planning of modern energy systems. Cybersecurity and resiliency analysis of microgrids and smart grids are also key areas of his research, reflecting a commitment to developing robust and secure energy solutions.

Skills:

Dr. Mohammad Hassan Nazari possesses extensive expertise in power system engineering, with a particular focus on several key areas. He excels in power system analysis and optimization, utilizing advanced techniques to enhance the efficiency, reliability, and performance of power systems. His proficiency in microgrid energy management includes managing energy resources, storage solutions, and controllable loads to achieve optimal energy utilization and sustainability. Dr. Nazari is also skilled in energy control and management within microgrids and smart grids, ensuring effective and efficient energy distribution. His work in power quality and reliability enhancement involves improving the robustness of power systems to minimize disruptions. Additionally, he has strong capabilities in data-mining and decision-making, applying these skills to analyze and optimize power systems. Dr. Nazari is well-versed in cybersecurity and resilience analysis for microgrids and smart grids, focusing on securing and ensuring the reliability of these systems. His experience extends to distributed generation optimization, where he works to reduce losses, harmonic disturbances, and greenhouse gas emissions while enhancing system reliability. Lastly, Dr. Nazari is adept in energy market and pricing analysis, with a focus on optimizing pricing strategies and improving market dynamics.

Awards and Honors:

Dr. Mohammad Hassan Nazari has been recognized for his significant contributions to the field of power system engineering through several prestigious awards and honors. Notably, he received the Best Paper Award at the International Conference on Smart Grids and Energy Management for his groundbreaking research on microgrid energy management and optimization. His outstanding academic achievements during his doctoral studies earned him the Distinguished PhD Scholar Award from Sharif University of Technology. Additionally, Dr. Nazari was honored with the Excellence in Research Award from Amirkabir University of Technology for his innovative work in power system optimization and energy management. These accolades reflect his dedication to advancing the field and his impact on the development of sustainable and efficient energy systems.

Publication Top Noted:

Optimal Sizing and Techno-Economic Analysis of Energy-and Cost-Efficient Standalone Multi-Carrier Microgrid

  • Authors: A. Lorestani, M.H. Nazari, G.B. Gharehpetian
  • Journal: Energy
  • Year: 2019
  • Volume: 178
  • Pages: 751-764
  • Citations: 101

A Life Cycle-Cost Analysis of Li-Ion and Lead-Acid BESSs and Their Actively Hybridized ESSs with Supercapacitors for Islanded Microgrid Applications

  • Authors: M.H. Nazari, M. Torkashvand, A. Khodadadi, M.B. Sanjareh
  • Journal: IEEE Access
  • Year: 2020
  • Volume: 8
  • Pages: 153215-153225
  • Citations: 37

A Novel and Optimal Battery Sizing Procedure Based on MG Frequency Security Criterion Using Coordinated Application of BESS, LED Lighting Loads, and Photovoltaic Systems

  • Authors: M. Bagheri-Sanjareh, M.H. Nazari, G.B. Gharehpetian
  • Journal: IEEE Access
  • Year: 2020
  • Volume: 8
  • Pages: 95345-95359
  • Citations: 37

Distribution System Resilience Enhancement Through Resilience-Oriented Optimal Scheduling of Multi-Microgrids Considering Normal and Emergency Conditions Interlink Utilizing …

  • Authors: M. Ebadat-Parast, M.H. Nazari, S.H. Hosseinian
  • Journal: Sustainable Cities and Society
  • Year: 2022
  • Volume: 76
  • Article ID: 103467
  • Citations: 34

Optimal Allocation of DSTATCOM in Distribution Network Using Whale Optimization Algorithm

  • Authors: P. Ahmadi, M.H. Nazari, S.H. Hosseinian
  • Journal: Engineering, Technology & Applied Science Research
  • Year: 2018
  • Volume: 8
  • Issue: 5
  • Pages: 3445-3449
  • Citations: 33

A New Method for Energy Management of Residential Microgrid for Sizing Electrical and Thermal Storage Systems

  • Authors: M.H. Nazari, M. Bagheri-Sanjareh, S.H. Hosseinian
  • Journal: Sustainable Cities and Society
  • Year: 2022
  • Volume: 76
  • Article ID: 103482
  • Citations: 32

Coordination of Energy Storage System, PVs and Smart Lighting Loads to Reduce Required Battery Size for Improving Frequency Response of Islanded Microgrid

  • Authors: M. Bagheri-Sanjareh, M.H. Nazari
  • Journal: Sustainable Energy, Grids and Networks
  • Year: 2020
  • Volume: 22
  • Article ID: 100357
  • Citations: 32

A Novel Approach for Sizing Thermal and Electrical Energy Storage Systems for Energy Management of Islanded Residential Microgrid

  • Authors: M.B. Sanjareh, M.H. Nazari, G.B. Gharehpetian, S.H. Hosseinian
  • Journal: Energy and Buildings
  • Year: 2021
  • Volume: 238
  • Article ID: 110850
  • Citations: 29

Optimal Scheduling of HVACs in Islanded Residential Microgrids to Reduce BESS Size Considering Effect of Discharge Duration on Voltage and Capacity of Battery Cells

  • Authors: M.B. Sanjareh, M.H. Nazari, G.B. Gharehpetian, R. Ahmadiahangar, A. Rosin
  • Journal: Sustainable Energy, Grids and Networks
  • Year: 2021
  • Volume: 25
  • Article ID: 100424
  • Citations: 28

 

 

Salvador Cunat | Digital Signatures | Best Researcher Award

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Mr. Salvador Cunat | Digital Signatures | Best Researcher Award

Researcher and Training at Polytechnic University of Valencia, Spain

Salvador Cuñat is a dedicated researcher at the Polytechnic University of Valencia (Universitat Politècnica de València, UPV), specializing in cybersecurity and IoT networks. He holds a Bachelor’s degree in Computer Engineering and a Master’s degree in Cybersecurity and Cyberintelligence from UPV. Salvador’s research interests encompass security measures for IoT devices, intrusion detection systems, and digital twin technology for industrial IoT environments. He has showcased his expertise through various projects and papers, contributing significantly to the field. Salvador’s professional journey includes roles as a computer engineer and researcher, reflecting his commitment to practical application and academic exploration. With a passion for innovation and problem-solving, Salvador continues to make valuable contributions to the cybersecurity landscape.

Profile:

Education:

Salvador Cuñat completed his Bachelor’s degree in Computer Engineering (Grado en Ingeniería Informática) at ETSINF, UPV, España, from 2016 to 2020. Subsequently, he pursued a Master’s degree in Cybersecurity and Cyberintelligence (Máster Universitario en Ciberseguridad y Ciberinteligencia) at the same institution from 2020 to 2022. Additionally, he attained a C2 level proficiency in English from Cambridge Assessment English.

Professional Experience

Salvador Cuñat pursued a Bachelor’s degree in Computer Engineering at ETSINF, UPV, España, from 2016 to 2020, followed by a Master’s degree in Cybersecurity and Cyberintelligence from 2020 to 2022. Alongside his academic journey, he attained a C2 level proficiency in English from Cambridge Assessment English. Salvador’s professional trajectory includes roles such as a Computer Engineer at F1-Connecting and Stadler Rail in Valencia, and as a Researcher for the Dataports and aerOS Projects at SATRD UPV, Valencia. These experiences, coupled with his expertise in intrusion detection systems, IoT security, ethical hacking, and software development, showcase his versatile skill set. Salvador’s dedication to academic excellence and practical application positions him as a promising figure in the fields of computer engineering, cybersecurity, and research.

Research Interest

Salvador Cuñat’s research interests primarily revolve around security and trust in IoT networks. Specifically, he focuses on the development of robust security measures to safeguard IoT devices and networks against cyber threats. His work delves into areas such as intrusion detection systems, malware analysis, and security incident management tailored for IoT environments. Additionally, Salvador explores the concept of Digital Twin technology and its applications in enhancing security for industrial IoT setups. Through his research, he aims to address the pressing challenges posed by the proliferation of IoT devices, ensuring their resilience against cyberattacks while fostering trust among users and stakeholders. Salvador’s contributions to the field are driven by a commitment to advancing cybersecurity solutions that can effectively mitigate risks in increasingly interconnected and digitized ecosystems.

Award and Honors

Salvador Cuñat has received notable awards and honors throughout his academic and professional journey. He was recognized as a finalist in the National Cyber League during the 2020 edition, showcasing his expertise and proficiency in cybersecurity. Additionally, Salvador’s contributions to the field include the development of an intrusion detection system on open software in 2020, demonstrating his innovative approach to addressing cybersecurity challenges. These accolades underscore Salvador’s dedication to excellence and his ability to make significant contributions to the cybersecurity domain.

Research Skills

Salvador Cuñat’s research skills are comprehensive and finely tuned, drawing from his academic and professional journey. He adeptly conducts literature reviews, identifying gaps and shaping research objectives. His expertise extends to designing experiments and methodologies tailored to address specific questions, ensuring the reliability of data collection. Proficient in various data analysis techniques, including statistical analysis and qualitative coding, Salvador derives meaningful insights from research findings. He excels in problem-solving within the cybersecurity domain, employing critical thinking and analytical reasoning to formulate innovative solutions. Technical proficiency in programming languages, database management, and software development facilitates the implementation of research projects and prototype development. Salvador effectively communicates research findings through presentations, reports, and scholarly publications, demonstrating clarity and coherence. Collaborating seamlessly with multidisciplinary teams, he leverages diverse perspectives to drive research projects forward collaboratively. Overall, Salvador’s research skills position him as a capable and versatile contributor to the advancement of knowledge in cybersecurity and related fields.

Elias Cherenet weldemariam | Endpoint security Award | Best Researcher Award

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Mr. Elias Cherenet weldemariam, Endpoint security Award, Best Researcher Award

Elias Cherenet weldemariam at Haramaya Unversity, Ethiopia

Mr. Elias Cherenet Weldemariam is a highly skilled professional in the field of Geo-Information Science, Earth Observation, and Natural Resources Management. He holds a Master of Science degree in Geo-Information Science and Earth Observation from the University of Twente, the Netherlands, and a Bachelor of Science degree in Natural Resources Management from Bahir Dar University, Ethiopia.

With extensive experience as an Assistant Professor of GIS and Remote Sensing at Haramaya University, Mr. Weldemariam has made significant contributions to the field. He specializes in applying GIS and remote sensing techniques to various sectors, including environmental sciences, natural resources, health informatics, disaster risk management, and climate change modeling.

Profile:

Education:

Master of Science in Geo-Information Science and Earth Observation (GIS and Remote Sensing) for Natural Resources Management

  • Institution: University of Twente, Faculty of Geo-Information and Earth Observation (ITC), the Netherlands
  • Duration: 17 Sep 2014 – 11 Mar 2016

Bachelor of Science in Natural Resources Management

  • Institution: Bahir Dar University, Bahir Dar, Ethiopia
  • Duration: Sep 2007 – 10 July 2010

Diploma in Forestry

  • Institution: Hawassa University (formerly Debub University), Wondo Genet College of Forestry and Natural Resources, Shashemene, Ethiopia

Professional Experience:

Mr. Elias Cherenet Weldemariam has a wealth of professional experience in the fields of Geo-Information Science, Earth Observation, and Natural Resources Management. He has served as an Assistant Professor of GIS and Remote Sensing and as the Head of the GIS department at Haramaya University. In this role, he specializes in GIS and Remote Sensing applications for natural resources, spatial ecology, climate change, drought monitoring, environmental management, biodiversity, and agriculture. Mr. Weldemariam is actively involved in lecturing undergraduate and postgraduate students, conducting research, and providing community services related to environmental health, disaster risk management, and climate change modeling. Additionally, he has worked as a researcher at the Amhara Regional Agricultural Research Institute, where he coordinated various forestry, agroforestry, and natural resources research projects, conducted data collection and analysis, and contributed to the identification and design of new research thematic areas in forestry and agroforestry. Through his extensive experience, Mr. Weldemariam has demonstrated expertise in project management, research, data analysis, and fieldwork, making significant contributions to the fields of environmental science and natural resources management.

Research Interest:

Geospatial analysis and modeling for environmental sustainability: Mr. Weldemariam is interested in using GIS and remote sensing techniques to analyze and model spatial data for sustainable environmental management practices. This includes applications such as land-use planning, watershed management, and habitat suitability modeling.

Climate change and its impacts: He conducts research on the impacts of climate change on natural ecosystems, agriculture, and water resources using spatial analysis and modeling approaches. His work focuses on assessing climate change vulnerabilities and developing adaptation strategies for climate resilience.

Biodiversity conservation and ecosystem monitoring: Mr. Weldemariam explores the use of GIS and remote sensing technologies for monitoring biodiversity and ecosystem health. This includes studying species distribution patterns, habitat fragmentation, and the effectiveness of conservation interventions.

Disaster risk management: He investigates the use of geospatial technologies for disaster risk assessment, mitigation, and response. This includes applications such as flood mapping, landslide susceptibility analysis, and assessing the vulnerability of communities to natural hazards.

Sustainable agriculture and natural resource management: Mr. Weldemariam’s research also encompasses the application of GIS and remote sensing in agricultural sustainability and natural resource management. This includes topics such as soil erosion modeling, agroforestry planning, and precision agriculture.

Publication Top Noted:

Title: Abattoir Site Suitability Modeling Using a Geographic Information System and Multi-Criteria Evaluation–A Case Study of Dire Dawa City, Ethiopia | Modellierung der Schlachthofeignung unter Verwendung Geographischer Informationssysteme und Multikriterienevaluation – Eine Fallstudie zu Dire Dawa City, Äthiopien

  • Authors: Yasin, K.H.; Weldemariam, E.C.; Woldemariam, G.W.; Gelete, T.B.; Yuya, I.A.
  • Journal: KN – Journal of Cartography and Geographic Information
  • Year: 2023
  • Volume: 73
  • Issue: 2
  • Pages: 161–178
  • Abstract: This article explores the suitability of abattoir site locations in Dire Dawa City, Ethiopia, using Geographic Information Systems (GIS) and Multi-Criteria Evaluation (MCE) techniques.

Title: Climate changes could jeopardize a main source of livelihood in Africa’s drylands

  • Authors: Esser, L.F.; Weldemariam, E.C.
  • Journal: Journal for Nature Conservation
  • Year: 2023
  • Volume: 71
  • Pages: 126319
  • Abstract: This article discusses the potential impact of climate change on a primary source of livelihood in Africa’s drylands.

Title: Predicting invasion potential of Senna didymobotrya (Fresen.) Irwin & Barneby under the changing climate in Africa

  • Authors: Weldemariam, E.C.; Dejene, S.W.
  • Journal: Ecological Processes
  • Year: 2021
  • Volume: 10
  • Issue: 1
  • Pages: 5
  • Abstract: This article presents a study on predicting the invasion potential of Senna didymobotrya under changing climate conditions in Africa.