Hongchenyu Yang | Control science | Best Researcher Award

Published on by Academic Awards

Ms. Hongchenyu Yang | Control science | Best Researcher Award

Hongchenyu Yang  at Shanghai University

Short Bio:

Hongchenyu Yang is a PhD candidate at Shanghai University, specializing in Control Science and Engineering. With a strong academic background and a passion for cutting-edge research, he has made notable contributions to the fields of networked control systems and multi-agent systems. His research focuses on enhancing control theories and communication protocols, with a keen interest in tackling security challenges and improving system stability under time-delay and bandwidth constraints. Through his academic excellence and leadership, Hongchenyu has received several prestigious scholarships, grants, and honors.

Profile:

Educational Background:

Hongchenyu Yang is currently pursuing a PhD in Engineering at Shanghai University, with a major in Control Science and Engineering (Sept. 2020 – Jun. 2025). He has been involved in an exchange program at the National University of Singapore (Dec. 2022 – Jan. 2024). Before his PhD, he completed his Bachelor’s in Engineering from Shanghai University, specializing in Automation (Sept. 2016 – Jun. 2020), and participated in an exchange program at Queen’s University of Belfast (July – Aug. 2018).

Professional Experience:

Hongchenyu Yang is a dedicated PhD student at the School of Mechatronic Engineering and Automation, Shanghai University. His academic journey includes extensive research in networked control systems and multi-agent systems, with an emphasis on addressing challenges in communication protocols, security control, and system performance in complex environments. As a member of several professional organizations such as the Chinese Association of Automation and the China Simulation Federation, Hongchenyu actively engages in advancing the field of automation and control systems. He has contributed significantly to the research community as an active reviewer for leading international journals.

Research Interests:

Hongchenyu Yang’s research interests focus on Networked Control and Multi-Agent Systems, Semantic Communication, Control Theory, Sampled-Data Control, Security Control, Communication Protocols, Time-Delay Systems, and Event-Triggered Communication. His future research plans include Data-Driven Control, Robot-Human Interaction, Semantic Segmentation, Multi-Modal Perception and Communication, and Situation Awareness.

Author Metrics

Hongchenyu Yang has published several influential papers in high-impact journals. His key works include:

  1. Yang, H., Peng, C., Cao, Z., & Zhang, X.-M. (2025). “A novel semantic-based multi-packet parallel transmission scheme for networked control systems,” Automatica, 174, 112120.
  2. Yang, H., Peng, C., & Cao, Z. (2023). “Attack-model-independent stabilization of networked control systems under a jump-like TOD scheduling protocol,” Automatica, 152, 110982.
  3. Yang, H., Peng, C., & Cao, Z. (2023). “A novel memory-based scheduling protocol for networked control systems under stochastic attacks and bandwidth constraint,” IEEE/CAA Journal of Automatica Sinica, 10(5), 1336-1339.
  4. Wu, J., Peng, C., Yang, H., & Wang, Y.-L. (2022). “Recent advances in event-triggered security control of networked systems: A survey,” International Journal of Systems Science, 53(12), 2624-2643.
  5. Yang, H., Yang, T.-C., Peng, C., Tian, E., & Song, Y. (2024). “Matrix full rank, controllability and observability: Revisit basic concepts,” In 2024 43rd Chinese Control Conference (CCC).

Grants, Scholarships, and Honors:

Hongchenyu Yang has been awarded numerous scholarships and grants recognizing his academic excellence, including:

  • Grant for Joint PhD Programme, China Scholarship Council (2023)
  • Grant for Excellent Doctoral Dissertation Cultivation Programme, Shanghai University (Top 6)
  • National Scholarship, China (Top 3)
  • First Class Academic Scholarship, Shanghai University (Top 4)
  • Overseas Study Scholarship, Shanghai University
  • Leadership Scholarship, Shanghai University
  • Outstanding Graduate, Shanghai University (Top 9)
  • Outstanding Student, Shanghai University

Publication Top Noted:

  • Conference Paper
    Title: Matrix full rank, Controllability and Observability: Revisit Basic Concepts
    Authors: Yang, H., Yang, T.-C., Peng, C., Tian, E., Song, Y.
    Conference: Chinese Control Conference (CCC), 2024, pp. 1–4
    Citations: 0
  • Article
    Title: Attack-model-independent stabilization of networked control systems under a jump-like TOD scheduling protocol
    Authors: Yang, H., Peng, C., Cao, Z.
    Journal: Automatica, 2023, 152, 110982
    Citations: 26
  • Letter (Open Access)
    Title: A Novel Memory-Based Scheduling Protocol for Networked Control Systems Under Stochastic Attacks and Bandwidth Constraint
    Authors: Yang, H., Peng, C., Cao, Z.
    Journal: IEEE/CAA Journal of Automatica Sinica, 2023, 10(5), pp. 1336–1339
    Citations: 0
  • Article
    Title: Networked scheduling for decentralized load frequency control
    Authors: Peng, C., Yang, H.
    Journal: Intelligence and Robotics, 2022, 2(3), pp. 298–312
    Citations: 0
  • Review
    Title: Recent advances in event-triggered security control of networked systems: a survey
    Authors: Wu, J., Peng, C., Yang, H., Wang, Y.-L.
    Journal: International Journal of Systems Science, 2022, 53(12), pp. 2624–2643
    Citations: 46

Conclusion:

Hongchenyu Yang is a promising and highly skilled researcher in the field of control science. His academic achievements, innovative contributions to networked control systems, and active involvement in professional communities make him a deserving candidate for the Best Researcher Award. His research has the potential to shape the future of control systems, particularly in the areas of security and communication protocols, which are vital for modern technologies. With continued focus on enhancing the citation impact and broadening interdisciplinary collaborations, Yang is poised for even greater success in his academic and professional career.

 

Neslihan Güntekin | Prosthodontist | Best Researcher Award

Published on by Academic Awards

Assoc. Prof. Dr. Neslihan Güntekin | Prosthodontist | Best Researcher Award

MD at Necmettin Erbakan Unıversty, Turkey

Short Bio:

Dr. Neslihan Güntekin is a dedicated Dentist and Academic at Necmettin Erbakan University. She specializes in dental materials, with a particular focus on CAD/CAM restorations, 3D printing, and additive manufacturing in dental prosthetics. Dr. Güntekin has contributed to numerous national and international research projects and is a well-published author in prestigious dental journals. Her work emphasizes enhancing the performance, durability, and accuracy of dental restorations to improve clinical outcomes and patient satisfaction.

Profile:

Scopus

Orcid

Google Scholar

Educational Background:

Dr. Neslihan Güntekin is a distinguished academic in the field of dental sciences. She currently holds the position of Doctor Lecturer (Doktor Öğretim Üyesi) at Necmettin Erbakan University, specifically within the Faculty of Dentistry, Clinical Sciences Department. She earned her academic qualifications in dentistry and has been deeply involved in several research areas of dental material science and restoration techniques.

Professional Experience:

Dr. Güntekin’s professional career spans multiple teaching and administrative roles. As a Lecturer at Necmettin Erbakan University, she has contributed significantly to the academic community by offering courses related to dental morphology and manipulation. Furthermore, her administrative involvement includes serving as the Deputy Chief Physician (Başhekim Yardımcısı) at the Faculty of Dentistry since April 2024, where she plays a key role in overseeing clinical activities.

In addition to her academic duties, Dr. Güntekin is actively engaged in research projects that focus on the advancement of dental materials and technology. She is a principal investigator in several national scientific research projects, some of which include the development and comparison of different dental restoration materials and the impact of aging and manufacturing methods on their properties.

Research Interests:

Dr. Güntekin’s research interests lie primarily in dental restoration materials, particularly focusing on CAD/CAM technology, 3D printing, and additive/subtractive manufacturing methods. Her work investigates the surface properties, bonding strengths, and fatigue performance of various dental materials, such as composites and zirconia. Additionally, she examines the effect of aging and environmental factors on the longevity and performance of dental restorations, as well as the impact of material choice on clinical outcomes, including force transmission in implant-supported restorations.

Her research contributions also delve into the digital transformation of dentistry, exploring the role of intraoral scanners in accuracy improvement and diagnostic precision in dental procedures.

Publication Top Noted:

  • “The Effects of Different Restoration Materials on the Trueness of Intraoral Scanners”, NEU Dent J., (DOI: 10.51122/neudentj.2024.111)
  • “Investigation of the effect of implant crown ratio and material type on the force transmitted to the implant in implant-supported restorations”, Health Sciences Medicine, (DOI: 10.32322/jhsm.1535336)
  • “The Effect of Image Count on Accuracy in Digital Measurements in Dentistry”, Diagnostics, (DOI: 10.3390/diagnostics14192122)
  • “Comparison of Volumetric Loss and Surface Roughness of Composite Dental Restorations Obtained by Additive and Subtractive Methods”, Heliyon, (DOI: 10.1016/j.heliyon.2024.e26269)
  • “The Evaluation of Shear Bond Strength of Denture Teeth to CAD/CAM Dentures Acrylic After Aging in Gastric Acid”, Heliyon (DOI: 10.1016/j.heliyon.2024.e26269)

Conclusion:

Assoc. Prof. Dr. Neslihan Güntekin is a strong candidate for the Best Researcher Award due to her pioneering contributions to dental material science and her innovative research in CAD/CAM technology and 3D printing. Her work has had a tangible impact on the advancement of dental restorations and clinical dentistry. However, increasing her international presence and focusing on interdisciplinary collaborations could further enhance her research influence and global recognition.