Todor Todorov | Energy Harvesting | Best Researcher Award

Posted on by Popular EngineerLeave a Comment on Todor Todorov | Energy Harvesting | Best Researcher Award

Prof. Dr. Todor Todorov | Energy Harvesting | Best Researcher Award

Professor, Technical University of Sofia, Bulgaria

Todor Stoilov Todorov is a Bulgarian academic and engineer, specializing in microelectromechanical systems (MEMS), mechanism theory, and mechanical engineering. He currently serves as the Head of the Laboratory of Microelectromechanical Systems at the Technical University of Sofia. With over 40 years of experience in academia and research, Todorov has held key positions, including Dean of the Faculty of Industrial Technology and Head Assistant Professor in Theory of Mechanisms and Machines. He is renowned for his contributions to MEMS technology, robotics, and machine theory. Todorov is also an active member of several professional organizations and editorial boards, demonstrating his commitment to advancing engineering education and research.

Profile 

Education

Todorov completed his PhD in 2001 at the Technical University of Sofia, focusing on the synthesis of mechanisms for manipulation in relative space. He earned his MSc in Mechanical Engineering in 1983, with a specialization in precision engineering and measurement instruments. Further enhancing his expertise, he obtained a Master of Science degree in Decision Support Systems from the University of Sunderland in the UK (1994). His diverse educational background also includes early studies in mechanical design and microelectronic systems at the Technical University of Sofia.

Experience

Todorov has dedicated his career to academia, holding various teaching and research roles at the Technical University of Sofia. From 2013, he served as a Professor in Theory of Mechanisms, specializing in MEMS, nanoengineering, and mechanical systems. Between 2019-2022, he was the Dean of the Faculty of Industrial Technology. His leadership also includes roles such as Head Assistant Professor, Senior Assistant Professor, and Researcher. Additionally, he held a position as Mayor of Vladaya (1995-1999), showcasing his versatility in both academic and public administration spheres.

Awards and Honors

Todorov has been recognized for his significant contributions to mechanical engineering and academic leadership. Notable honors include his membership on the Editorial Board of multiple international journals and his role as a guest editor for Actuators. He is a reviewer for MDPI publishers and has been an active member of the Scientific-Technical Union of Mechanical Engineering, Bulgaria. His work in MEMS and mechanical systems design has earned him numerous academic accolades and an influential role in shaping the direction of robotics and mechanical engineering research in Bulgaria and beyond.

Research Focus

Todorov’s research focuses primarily on Microelectromechanical Systems (MEMS), Shape Memory Alloys (SMA), mechanism theory, and energy harvesting technologies. His innovative work in energy harvesters and self-excited oscillators using MEMS technology aims to enhance the performance of mechanical systems. He has explored applications of intelligent systems and decision support systems in engineering, integrating machine learning and adaptive models. Additionally, his work on actuators, sensors, and microcantilever sensors for ultralow mass detection underscores his expertise in applied robotics, advanced manufacturing, and the future of microtechnologies.

Publications

  • Dynamics of a Self-Excited Vibrating Thermal Energy Harvester with Shape Memory Alloys and PVDF Cantilevers (2024) 🧑‍🔬
  • Evaluation of the Influence of Lorentz Forces on the Natural Frequencies of a Dual-Microcantilever Sensor for Ultralow Mass Detection (2024) ⚡
  • Investigating a Detection Method for Viruses and Pathogens Using a Dual-Microcantilever Sensor (2024) 🦠
  • Study of Self-Excited Thermomechanical Oscillator with Shape Memory Alloys (2024) 🔥
  • Synthesis of a Bistable Recuperative Pump Powered by Shape Memory Alloys and a Two-Section Involute Cam (2023) 🔧
  • Linear Interval Approximation of Sensor Characteristics with Inflection Points (2023) 📊
  • A Study of a Bistable Reciprocating Piston Pump Driven by Shape Memory Alloys and Recuperative Springs (2023) 🔄
  • Energy Harvesting With Thermally Induced Vibrations in Shape Memory Alloys by a Constant Temperature Heater (2022) ⚙️
  • Linear Interval Approximation for Smart Sensors and IoT Devices (2022) 🌐
  • Modeling and Study of a Novel Electrothermal Oscillator Based on Shape Memory Alloys (2020) 🔋

Saman Shoorabi Sani | highly efficient energy harvesting interface circuits | Best Researcher Award

Posted on by Popular EngineerLeave a Comment on Saman Shoorabi Sani | highly efficient energy harvesting interface circuits | Best Researcher Award

MrSaman Shoorabi Sani | highly efficient energy harvesting interface circuits | Best Researcher Award

Circuit Designer , Ferdowsi University of Mashhad , Iran

Saman Shoorabi Sani is a Senior Electronic Technician and Circuit Designer with over 19 years of experience in the electronics and engineering fields. He co-founded ARARAT, a company dedicated to designing and developing electronic products for diverse industries. His expertise spans PCB design, hardware development, and integrated circuit design. Alongside his professional career, Sani is pursuing a PhD in Integrated Circuit Design at Ferdowsi University of Mashhad. His innovative research focuses on structural health monitoring, vibration-based energy harvesting, and energy-efficient circuit designs. Sani has contributed to several groundbreaking projects that apply wireless sensor networks (WSNs) for monitoring infrastructure and has published papers in well-regarded journals. His work bridges the gap between academia and industry, focusing on sustainable technologies and advanced electronic systems for real-world applications.

Profile

Google Scholar

Strengths for the Award

  1. Extensive Experience and Diverse Contributions:
    Saman Shoorabi Sani has over 19 years of experience in electronics and circuit design, with a strong focus on both practical applications and academic research. His experience spans a variety of high-impact fields, including structural health monitoring (SHM), energy harvesting, and integrated circuit design.
  2. Innovative Research in Structural Health Monitoring (SHM):
    His research in SHM, particularly with wireless sensor networks (WSNs), has been highly influential, with multiple published papers in reputable journals. Notable contributions include the study on earthquake-induced damage detection and the application of fuzzy inference and data mining for health monitoring. These papers have practical implications in civil engineering and disaster mitigation, which showcases his ability to merge electronics with real-world applications.
  3. Cutting-Edge Energy Harvesting Work:
    Sani’s research on vibration-based energy harvesting is particularly noteworthy, especially his focus on energy-efficient interface systems for piezoelectric energy harvesters. This aligns with the growing demand for sustainable, low-energy solutions in electronics. His work in this field represents a significant contribution to the development of energy-harvesting systems, which can be utilized in various industrial and commercial applications.
  4. High Citation Impact and Peer Recognition:
    With 7 publications in journals indexed in SCI/Scopus and a citation index of 17, Sani’s work is clearly being recognized by peers in his field. His publications span a wide range of technical areas, indicating his versatility and strong presence in the academic and research community.
  5. Active Engagement with Industry:
    As a co-founder of ARARAT, an electronics design and development company, Sani bridges the gap between academic research and industry needs. His involvement in consultancy projects shows his ability to translate research into viable, real-world solutions.
  6. Academic Standing and Contributions to Knowledge:
    As a PhD student in Integrated Circuit Design at Ferdowsi University of Mashhad, Sani continues to expand his knowledge and contribute to cutting-edge developments in his area of expertise. This positions him as a rising thought leader in his field.

Areas for Improvement

  1. Expansion of Collaborative Efforts:
    Although Sani has collaborated with others on key research projects, he could further expand his network of collaborations, particularly with international institutions or cross-disciplinary projects that integrate more diverse perspectives. This could lead to even greater innovation and broader impact in his research.
  2. Patent Activity:
    While Sani’s research shows a high degree of innovation, he has not yet published any patents. Focusing on commercializing his ideas through patents could enhance the real-world impact of his work and add value to his future research output.
  3. Book Publications:
    Although Sani has contributed significantly to journal publications, he has not yet published any books. Writing a book or a comprehensive monograph in his field could help consolidate his position as a leading researcher and provide a long-lasting contribution to the academic community.

 

Education

Saman Shoorabi Sani is currently pursuing a PhD in Integrated Circuit Design at Ferdowsi University of Mashhad, where he is advancing his knowledge in the development of energy-efficient and sustainable electronic systems. He has earned extensive academic qualifications over the years, building on his foundational expertise as an Electrical Technician. His doctoral research centers on the design of energy harvesting circuits, particularly from piezoelectric sources, and the development of highly efficient interface circuits for power systems. In addition to his ongoing academic work, Sani holds a long history of professional training in electronics and circuit design, which he gained from his extensive industry experience. Throughout his career, he has been involved in several applied research projects, gaining a deep understanding of both theoretical principles and practical implementations in the field of electronic systems and integrated circuit design.

Experience 

Saman Shoorabi Sani brings over 19 years of experience in the electronics and technology sectors. He began his career as an Electrical Technician at Tesla Industries, where he was responsible for the installation and maintenance of elevator and building management systems (BMS). In 2020, he co-founded ARARAT, a company that specializes in the design and development of electronic products, particularly in the areas of PCB design and hardware development. As a Senior Electronic Technician, Sani leads the technical team in delivering high-quality electronic solutions to a variety of industries. His expertise lies in integrated circuit design, structural health monitoring, and energy harvesting systems. In addition to his role at ARARAT, he is a PhD student at Ferdowsi University of Mashhad, where he continues to push the boundaries of research in energy-efficient circuits. His work emphasizes practical, real-world applications, making a significant impact in both academia and industry.

Research Focus

Saman Shoorabi Sani’s research is focused on the development of energy-efficient electronic systems, particularly in the fields of structural health monitoring (SHM) and vibration-based energy harvesting. His work aims to design and optimize integrated circuits for applications such as infrastructure monitoring and sustainable power solutions. Sani’s research in SHM involves using wireless sensor networks (WSNs) to monitor the condition of structures like bridges and buildings, with the goal of detecting damage early to prevent catastrophic failures. His research on energy harvesting focuses on improving the efficiency of piezoelectric devices, which convert mechanical vibrations into electrical energy. Sani is particularly interested in designing interface circuits that enhance the energy conversion process, making it suitable for real-world applications. His ongoing projects in these areas seek to integrate advanced circuit design with practical solutions for sustainability, pushing the boundaries of what is possible in both structural health and energy harvesting technologies.

Publications

  1. “Using a phase difference detection technique for monitoring the structural health of bridge piers” 🏗️📊
  2. “A case study for application of fuzzy inference and data mining in structural health monitoring” 🧠🔍
  3. “Remote Detection of Earthquake Induced Damage on Bridge Piers Using WSN Based on Dual Receiver and Phase Difference Measurement Technique” 🌍🌉
  4. “Study on Health Monitoring of Concrete Structures Using Wireless Sensor Networks” 🏢📡
  5. “A single-inductor self-powered SECE interface circuit for dynamic load multi-PZTs energy harvesting” 🔋⚡
  6. “Landslide Monitoring Using Wireless Sensor Networks” 🌄📡
  7. “A Novel Structure for High Voltage High Power Multilayer RF PIN Diode with an Improved Bandwidth and Sharp Variable Junction Capacitance” 📡🔌

Conclusion

Saman Shoorabi Sani is a highly qualified candidate for the Best Researcher Award. His innovative work in structural health monitoring and energy harvesting demonstrates a clear dedication to advancing both theoretical and practical knowledge in electronics and integrated circuit design. His contributions to improving energy efficiency in energy harvesting systems are particularly commendable. With a solid foundation in both academia and industry, Sani’s work continues to have a significant impact on the field. His combination of research excellence, practical application, and ongoing academic development makes him a standout nominee for this award.