2023 6th International Conference on Electron Device and Mechanical Engineering (ICEDME 2023)
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Inviting Guests

Prof. Fushuan Wen(IEEE Fellow)

Professor and PhD supervisor of Zhejiang University and South China University of Technology, China


Biography: Prof. Fushuan Wen was a professor and doctoral supervisor of Zhejiang University in 1997, and the director of the Institute of Electric Power Economics and Informatization. He used to be a postdoctoral fellow and researcher at National University of Singapore, a researcher and visiting professor at Hong Kong Polytechnic University, a visiting professor at Hong Kong University, a senior researcher at the University of New South Wales, Australia, and a visiting researcher at Queensland University of Technology, Australia. He was also a "Pearl River Scholar" in distinguished professor, Guangdong Province, the vice president of the Electric Power Institute of South China University of Technology, and the director of the Institute of Electric Power Economy and Market. Engaged in long-term research work.

Research Area: Power system alarm processing and fault diagnosis; Economy and electricity market; Power system investment planning and operation optimization

Prof. Danwei Wang (IEEE Fellow)

Nanyang Technological University, Singapore


Biography: Danwei Wang is Fellow of IEEE, Fellow of Academy of Engineering Singapore, Fellow of AvH (Germany) and recipient of the First-Class Award of Shanghai Science and Technology. He is a distinguished lecturer of IEEE Robotics and Automation Society. He received his Ph.D degree from the University of Michigan, Ann Arbor, USA. Currently, he is a professor, School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore. He is an Editor, IEEE IROS (International Conference on Intelligent Robotics and Systems) since 2019. He has published 6 books, 7 book chapters, 9 patents (5 published and 4 filed) and over 500 technical papers and articles in international refereed journals and conferences.

Prof. B. Bandyopadhyay (IEEE Fellow)

Indian Institute of Technology


Biography: Bijnan Bandyopadhyay (Fellow, IEEE/the Indian National Academy of Engineering/National Academy of Sciences, India/the Indian Academy of Sciences) received the Ph.D. degree in electrical engineering from the Indian Institute of Technology (IIT) Delhi, New Delhi, India, in 1986. In 1987, he joined the Systems and Control Engineering Group, IIT Bombay, Mumbai, India, as a Faculty Member, and is currently a Professor. In 1996, he was with the Lehrstuhl fur Eleck-trische Steuerung und Regelung, RUB, Bochum, Germany, as an Alexander von Humboldt Fellow. He has 400 publications that include monographs, book chapters, journal articles, and conference papers. He has guided 38 Ph.D. dissertations at IIT Bombay. His research interests include the areas of multirate output feedback based discrete-time sliding mode control, event-triggered sliding mode control, and nuclear reactor control.,Prof. Bandyopadhyay served as the Co-Chairman of the International Organization Committee and as the Chairman of the Local Arrangements Committee for the IEEE ICIT, Goa, India, in 2000. He also served as one of the General Chairs of the IEEE ICIT Conference, Mumbai, India, in 2006. He has served as the General Chair for the IEEE International Workshop on VSSSMC, Mumbai, India, 2012. He has also served as an Associate Editor for the IEEE Transactions on Industrial Electronics and IEEE/ASME Transactions on Mechatronics. He is currently serving as an Associate Editor for the IET Control Theory & Applications. He was awarded the IEEE Distinguished Lecturer of IEEE IE Society in 2019. He was awarded Distinguished Visiting Fellow by the Royal Academy of Engineering, London, U.K., in 2009 and 2012.

Keynote Speakers

Prof. Qingsheng Zeng (IEEE Senior Member)

Nanjing University of Aeronautics and Astronautics, China


Biography: Dr. Qingsheng Zeng graduated from the University of Ottawa, Canada, majoring in electrical engineering. He was a visiting scholar at the Institute of High Frequency Technology, Ruhr University, Germany, a senior research engineer at the National Communications Research Center of Canada, a member of the strategic project evaluation expert group of the National Natural Science and Engineering Research Council of Canada, a member of the field visit committee of the chief project of industrial research, and a post-doctoral scholarship reviewer for industrial research and development. He is currently a professor at Nanjing University of Aeronautics and Astronautics in China, a visiting professor at Harbin Engineering University, Northwestern Polytechnical University, Beijing University of Posts and Telecommunications, Beijing Jiaotong University, a special expert on the Hundred Talents Program in Shanxi Province ( a short-term project for innovative talents in colleges and universities ), and a part-time professor and doctoral tutor at the University of Ottawa, Carleton University, University of Quebec ( Capital Branch ), National Institute of Science Energy, Materials and Communications Center ( INRS-EMT ). He guides many doctoral students, postdoctoral researchers and visiting scholars.

Research Area: Communication and electronic systems, noise measurement and modeling, antenna analysis and design, electromagnetic compatibility and electromagnetic interference, ultra-wideband technology, radio wave propagation, computational electromagnetics

Title: A Novel Dual-Band Waveguide Filter with Multiple Transmission Zeros Based on TE102- and TE103-Mode

Abstract: In this report, the speaker proposes a novel dual-band waveguide filter with multiple transmission zeros (TZs) based on multiple-coupled resonators in the rectangular waveguide using TE102- and TE103-mode. The dual-band of the filter is introduced by five oversized resonant cavities working in TE102- and TE103-mode with the central frequencies of the passbands near by 30.1 GHz and 38.2 GHz, respectively. Simultaneously, this rectangular waveguide filter consists of five resonators, each of them is connected to source port from narrow wall of WR-28 rectangular waveguide, which generating multiple TZs at the frequency range of 26 - 40 GHz. To verify the performances of this novel filter, it is fabricated and measured, both results agree closely with each other.

Prof. Hassan Haes Alhelou (IEEE Senior Member)

Tisheen University, Lattakia, Syria & Monash University, Australia

Hassan Haes Alhelou116160.jpeg

Biography: Hassan Haes Alhelou (Senior Member, IEEE) is currently a Faculty Member with Tisheen University, Lattakia, Syria, and Monash University, Australia. He was with University College Dubline (UCD), Ireland, as a Senior Researcher. He serves as a Consultant at Sultan Qaboos Universit, Oman. He has published more than 30 research papers in the high-quality peer-reviewed journals and international conferences. He has also performed more than 160 reviews for high prestigious journals, including IEEE Transactions on Industrial Informatics, IEEE Transactions on Industrial Electronics, Energy Conversion and Management, Applied Energy, and International Journal of Electrical Power and Energy Systems. He has participated in more than 15 industrial projects. He is included in the 2018 and 2019 Publons List of the Top 1% Best Reviewer and Researchers in the field of engineering. He was a recipient of the Outstanding Reviewer Award from Energy Conversion and Management journal, in 2016; ISA Transactions journal, in 2018; Applied Energy journal, in 2019; and many other awards. He was a recipient of the Best Young Researcher in the Arab Student Forum Creative among 61 researchers from 16 countries at Alexandria University, Egypt, in 2011.

Research Area:Power systems, power system dynamics, power system operation, and control, dynamic state estimation, frequency control, smart grids, micro-grids, demand response, load shedding, and power system protection. 

Prof. Kun Li

College of Mechanical and Vehicle Engineering, Chongqing University, China


Biography: Kun Li, male, doctor, Chongqing University School of Mechanical Engineering ' Hongshen young scholar ' special expert, doctoral tutor, overseas talents. Bachelor of Engineering in Materials Science and Engineering, Jilin University, 2011. In 2016, received a doctorate in mechanical engineering, Tsinghua University ; february 2017 Postdoctoral research at the University of Texas at El Paso, and co-instructor for Lawrence E. Murr ( a pioneer in additive manufacturing in the United States ) and R.D.K. Misra 's research group Ph.D. students. April 2019 Senior Fellow, Department of Mechanical Engineering and Materials Science, University of Pittsburgh, USA ; in August 2020, he was hired as professor and doctoral supervisor of ' Hongshen Young Scholars ' of Chongqing University to engage in teaching and research. Mainly engaged in additive manufacturing, intelligent 3D net forming, high-performance materials and phase change, materials computing research. He has published more than 50 papers in Additive Manufacturing, Journal of Materials Science and Technology, Materials Science and Engineering : A, Journal of Nuclear Materials, Materials & Design, Small and other famous journals and conferences. He served as the reviewer of famous journals in Acta Materialia, Materials Research Letters, International Journal of Plasticity and other fields. Long-term cooperation with Tsinghua University, China Academy of Engineering Physics Chengdu Additive Manufacturing Center, the University of Pittsburgh, training graduate students.

Research Area: 

1. 3D printing and laser additive manufacturing, laser advanced manufacturing technology 

2. Artificial intelligence manufacturing, machine learning technology 

3. Material high-throughput design-mechanical intelligent processing integration 

4. High performance materials ( magnesium alloy, high temperature alloy, high strength steel, high entropy alloy, etc. ) and intelligent manufacturing 

5. Materials computing, materials genome engineering

Title: Additive manufacturing and intelligent processing control of advanced metal materials

Abstract: As an important branch in the field of 3D printing, metals additive manufacturing, has demonstrated great value and broad application in strategic emerging industries such as aerospace like turbo engine and blades, transportation like bearings, new energy and medical structures. The research progress has been made through several decades combined with the lab research. It has changed the traditional manufacturing methods and provided new ideas for the direct manufacturing of complex metal structures and functional parts, liberating the freedom of designers and making new product forms emerge, which shows very considerable prospects in the fields of innovative product development, biomedicine and energy.

Assoc. Prof. Yipin Wan

Chang'an University, China


Biography: Yipin Wan, an associate professor of the School of Construction Machinery, Chang'an University. He received his doctorate from Chang'an University in 2018 and engaged in post-doctoral research from 2021 to 2022. His interests include robotics, fatigue and fracture, composites, etc. Presided over or participated in more than 20 national, provincial and ministerial projects. More than 20 patents have been granted, one academic monograph has been written and more than 40 academic papers have been published. The scientific research achievements won the first prize of science and technology of colleges and universities in Shaanxi Province.

Research Area: Mechanical Engineering, Sensor design and load test, Intelligent Manufacturing and Design of Lightweight Materials

Title: Research on load test and fatigue test method of loader structure and transmission system

Abstract: With the rapid development of loader energy-saving operation and heavy load shovel technology, the problem of structural fatigue life has become increasingly prominent, especially the working device directly bearing external loads. The lack of common technology such as load spectrum, fatigue life prediction and test method has become the key to improve the performance of loaders, making domestic loaders less competitive. Therefore, we need to have a comprehensive understanding of the actual working environment of China's loaders, establish load spectrum and fatigue life analysis system for working devices, so as to provide theoretical support for prolonging product life, improving reliability and arranging maintenance cycle. In this report, the methods of load spectrum collection and compilation, fatigue life assessment and fatigue test are carried out with the ZL50G and LW900K loader working devices as the object.

Dr. Santhosh Krishna B V

New Horizon College of Engineering, Bengaluru, Karnataka, India


Biography: Dr. Santhosh Krishna B V is working as an Associate Professor in the Department of Computer Science and Engineering at New Horizon College of Engineering, Bengaluru, India. He received his doctoral degree from Anna University – A state Government University in Tamilnadu, India in the area of Biomedical Image Processing using machine learning algorithms. He has 12 years of experience in teaching and research. He has authored 9 textbooks in the area of communication and networking. He has published 30 papers in Scopus/SCI indexed journals and conferences. He is an active reviewer in many reputed SCI indexed journals. His area of interest includes Medical Image Processing, Communication Network and Security.

Research Area: Wireless Networks , Analog and Digital Communication, Digital Image Processing

Title: Role of IoT in Smart Cities & Industries Technology, Challenges and Opportunities

Abstract: In recent years, smart cities have been significantly developed and have greatly expanded their potential. Since its emergence in late 2019, the COVID-19 pandemic has swept through many cities around the world, claiming millions of lives and causing major socio-economic impacts. The pandemic occurred at an important historical juncture when smart solutions and technologies have become ubiquitous in many cities. In fact, novel advancements to the Internet of things (IoT) have paved the way for new possibilities, representing a set of key enabling technologies for smart cities and allowing the production and automation of innovative services and advanced applications for the different city stakeholders. This talk discusses about  IoT-enabled smart cities,industries  with the aim of highlighting the main trends and open challenges of adopting IoT technologies for the development of sustainable and efficient smart cities and smart industries.