Xiaoxiao Huo | Electric Engineering | Best Researcher Award

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Ms. Xiaoxiao Huo | Electric Engineering | Best Researcher Award

Xiaoxiao Huo at Xiamen University, China

Summary:

Ms. Xiaoxiao Huo is a promising researcher in the field of electrical engineering, currently pursuing her master’s degree at Xiamen University, China. With a strong foundation in power electronics and control theory, she has engaged in various research projects focused on optimizing energy systems and improving power conversion techniques. Ms. Huo is an award-winning student, recognized for her academic excellence and contributions to both research and engineering competitions. She has published several papers on advanced control strategies and holds patents in image recognition technologies for meter reading. Her diverse academic and practical experiences position her as a future leader in energy system optimization and power management.

Professional Profile:

👩‍🎓Education:

Ms. Xiaoxiao Huo is currently pursuing her M.Eng. in Electrical Engineering at Xiamen University (2022-2025, expected), where she maintains a GPA of 3.6/4.0. She is under the supervision of Dr. Po Li (Xiamen University) and Dr. Zhengmao Li (Aalto University). Her primary coursework includes modern control theory, advanced power electronics, and numerical analysis. She completed her B.Eng. in Electrical Engineering and Automation from South China Agricultural University (SCAU) in 2022 with an average score of 90.91/100. Her undergraduate studies focused on power electronics technology, power system analysis, and electrical machinery theory.

🏢 Professional Experience:

Throughout her academic journey, Ms. Huo has engaged in various research and professional roles. Currently, she is conducting research on multi-energy system planning and operation at Aalto University, where she is developing a planning and operation model for integrated energy systems. In addition, at Xiamen University, she is working on power conversion and energy management strategies for power systems, focusing on model predictive control and its applications. In 2022, Ms. Huo gained hands-on experience as an intern and research assistant at the Guangzhou Institute of Energy Testing, where she designed instrument verification methods using computer vision. She has also been an active volunteer with the Chinese Association of Automation (CAA) since 2021, contributing to academic promotion and conference organization. Her participation in robotics competitions, including the Robomaster visual team, further demonstrates her interest in AI and automation.

Research Interests:

Ms. Huo’s research interests lie in the areas of power electronics, control engineering, energy management, and hybrid energy storage systems. Her work focuses on model predictive control, model-free control, observer design, and hardware-in-the-loop (HIL) simulations. She has also contributed to projects involving grid-tied inverters, multi-energy systems, and the optimization of electric power conversion.

Author Metrics:

Ms. Huo has contributed to several significant publications in the fields of energy systems and power electronics. Some of her key works include:

  • Huo, X., & Li, P. (2024). Power Management and Control Strategy Based on Model-Free Control for Hybrid Energy Storage System. Accepted by 2024 9th International Conference on Power and Renewable Energy (ICPRE 2024).
  • Huo, X., & Li, P. Parameter-Free Ultralocal Model-Based Predictive Current Control for Three-Phase Four-Leg Inverters. Submitted to Electric Power Systems Research.
  • Zhang, Y., Huo, X., et al. (2023). Design of an Image Recognition Device for Electronic Water Meter Readings Based on Improved Threading Method. IEEE Chinese Automation Congress (CAC 2023).
  • She is also the co-author of two Chinese patents on image recognition methods for gas and water meter readings.

Top Noted Publication:

Simplified Finite Control Set Model Predictive Control for Single-Phase Grid-Tied Inverters with Twisted Parameters

  • Journal: Electric Power Systems Research
  • Publication Date: January 2025
  • DOI: 10.1016/j.epsr.2024.111063
  • Contributors: Po Li, Xiaoxiao Huo
  • Details: The paper discusses an advanced control method for single-phase grid-tied inverters with twisted parameters, focusing on reducing total harmonic distortion (THD).

Design of an Image Recognition Device for Electronic Water Meter Readings Based on Improved Threading Method

  • Conference: 2023 China Automation Congress (CAC)
  • Publication Date: November 17, 2023
  • DOI: 10.1109/cac59555.2023.10451216
  • Contributors: Yuanming Zhang, Qilun Lu, Xiaoxiao Huo, Yong Wan, Peng Tian
  • Details: This paper focuses on the design of a device utilizing image recognition technology for reading electronic water meters, improving accuracy through an enhanced threading method.

Total Harmonic Distortion Reduction Method of Improved Finite Control Set Model Predictive Control for Single-Phase Inverter with Twisted Parameter

  • Conference: 2023 5th International Conference on Power and Energy Technology (ICPET)
  • Publication Date: July 27, 2023
  • DOI: 10.1109/icpet59380.2023.10367520
  • Contributors: Po Li, Xiaoxiao Huo, Feng Guo
  • Details: This paper presents an improved control method for reducing THD in single-phase inverters with twisted parameters.

Multi-Sampling Rate Finite Control Set Model Predictive Control and Adaptive Method of Single-Phase Inverter

  • Journal: Electronics
  • Publication Date: June 27, 2023
  • DOI: 10.3390/electronics12132848
  • Contributors: Yunfeng She, Xiaoxiao Huo, Xiaoshan Tong, Chunjie Wang, Kunkun Fu
  • Details: The paper discusses multi-sampling rate model predictive control methods for single-phase inverters, including adaptive control to enhance performance.

Research on Quality Control Application of Whole Process Intelligent Manufacturing in Steel Industry 4.0 Based on Big Data Analysis

  • Journal: Journal of Network Intelligence
  • Publication Year: 2022
  • EID: 2-s2.0-85136270844
  • ISSN: 2414-8105
  • Contributors: Zhao, F., Yin, C., Huo, X., Xu, Y.
  • Details: This paper examines the application of big data analysis for quality control in Industry 4.0, focusing on intelligent manufacturing in the steel industry.

Daniel Marcelo-Aldana | Renewable Resources | Best Researcher Award

Posted on by Best Paper Award

Prof Dr. Daniel Marcelo-Aldana, Renewable Resources, Best Researcher Award

Professor at University of Piura, Peru

Summary:

Prof. Dr. Daniel Marcelo-Aldana is an accomplished engineer and academician with a diverse background in mechanical and electrical engineering. He holds a Ph.D. in Energy and Environmental Technologies for Sustainable Development from the University of La Sapienza in Rome, Italy. Additionally, he earned a Master’s degree in Project Management and a Bachelor’s degree in Mechanical Electrical Engineering from the University of Piura in Peru. Currently serving as a Principal Professor in the Faculty of Engineering at the University of Piura, Peru, Dr. Marcelo-Aldana is deeply involved in both undergraduate and graduate education, teaching courses ranging from Heat Transfer and Hydraulic Machines to Hydroelectric Power Plants and Renewable Energies. With a wealth of experience in academic leadership roles, he has previously served as Vice Dean of the Faculty of Engineering and Director of Research and Graduate Studies. Dr. Marcelo-Aldana has over 15 years of experience in conducting and overseeing research projects in basic and applied sciences, innovation, and technology transfer, with a particular focus on sustainable energy solutions. He is also actively engaged in evaluating research articles for indexed journals and projects for funding agencies.

Professional Profile:

Scopus Profile

Orcid Profile

Google Scholar Profile 

👩‍🎓Education & Qualification:

Professional experience:  

Prof. Dr. Daniel Marcelo-Aldana’s professional experience includes:

  • Currently holds the position of Principal Professor at the Faculty of Engineering at the University of Piura, Peru.
  • Teaches undergraduate and graduate courses, including Heat Transfer, Hydraulic Machines, Hydroelectric Power Plants, Renewable Energies, Introduction to Heat Transfer Mechanisms, and Industrial Plants.
  • Served as Vice Dean of the Faculty of Engineering at the University of Piura from 2017 to 2020.
  • Previously served as Director of Research and Graduate Studies at the Faculty of Engineering from 2011 to 2013.
  • Represented the University of Piura before the Regional Government of Piura on committees related to energy, innovation, and research.
  • Member of the team for the design, formulation, and implementation of the Master’s Program in Electrical Mechanical Engineering at the University of Piura in 2007.
  • Member of the team for the design, formulation, and implementation of the Doctoral Program in Engineering at the University of Piura in 2010.
  • Has over 15 years of experience in formulating, directing, and participating as a researcher in basic and applied research projects, innovation, and technology transfer at the national and international levels.
  • Participates as an evaluator and reviewer of articles for indexed journals such as ScienceDirect and evaluates projects for competitive funds such as Fincyt and Concytec.
Research Interest:

Renewable Energies: Investigation of sustainable energy sources such as solar, wind, hydroelectric, and biomass energy, with a focus on their integration into existing energy systems and their impact on the environment.

Heat Transfer Mechanisms: Study of heat transfer processes in various engineering applications, including conduction, convection, and radiation, and the development of efficient heat transfer technologies.

Hydroelectric Power Plants: Research on the design, operation, and optimization of hydroelectric power plants to maximize energy production while minimizing environmental impact.

Industrial Plants: Investigation of the design and operation of industrial plants, including manufacturing facilities, chemical plants, and refineries, with a focus on improving efficiency and reducing environmental pollution.

Sustainable Development: Exploration of technologies and strategies for promoting sustainable development, including the use of renewable energy sources, waste management, and environmental conservation measures.

Energy Policy and Planning: Analysis of energy policies and planning initiatives at the regional, national, and international levels, with a focus on promoting sustainable energy practices and reducing greenhouse gas emissions.

Innovation and Technology Transfer: Examination of mechanisms for fostering innovation and technology transfer in the engineering sector, including collaborations between academia, industry, and government agencies to promote the adoption of new technologies.

Publication Top Noted:

Title: Estimation of hydrogen production potential from renewable resources in northern Peru

  • Authors: D. Caravantes, J. Carbajal, C. Celis, D. Marcelo-Aldana
  • Journal: International Journal of Hydrogen Energy
  • Volume: 50
  • Pages: 186-198
  • Year: 2024
  • Citations: 3

Title: Effect of Swell-Drying on Mango (Mangifera indica) Drying Kinetics

  • Authors: L.A. Casaverde-Pacherrez, C. Téllez-Pérez, C. Besombes, …
  • Journal: Foods
  • Volume: 11
  • Issue: 15
  • Pages: 2220
  • Year: 2022
  • Citations: 3

Title: Evaluación tecnológica y económica de sistemas de producción de panela con tecnología a vapor

  • Author: J.J. Manrique Silupú 
  • Year: 2012
  • Citations: 3

Title: Análisis técnico y económico sobre producción, almacenamiento y transporte de biodiesel en Perú

  • Author: L.E. Vértiz Díaz
  • Year: 2012
  • Citations: 3

Title: Comparativa entre sistemas de captación solar para el diseño y análisis de un sistema de acondicionamiento para un piso de oficinas

  • Authors: A.N. Chira Rodríguez, C.A. Cárdenas Correa, F.J. Ma San Gómez, …
  • Year: 2021
  • Citations: 2