Ms. Ivett-Greta Zsak | Data-Driven | Best Researcher Award

Published on by Computer Scientists Awards

Ivett-Greta Zsak | Data-Driven | Best Researcher Award

PhD Candidate, Technical University of Cluj-Napoca, Romania

Ms. Ivett-Greta Zsak, a Romanian architect, lecturer, and PhD candidate at the Technical University of Cluj-Napoca, is an influential figure in sustainable architecture and heritage preservation. She earned her Diploma in Architecture from the University of Oradea under the board of UAUIM Bucharest and has since established herself as a practicing architect and administrator of Zero Positive Architecture SRL. Currently serving as an expert at Living Lab 10 within the EU GREEN European University Alliance for Sustainability and as an associate lecturer at the University of Oradea, she combines academic engagement with professional innovation. Her doctoral research focuses on civil engineering and installation, contributing to frameworks such as the Building Identity Passport (BIP) for prefabricated housing rehabilitation, published in Sustainability in 2025. She is actively engaged in heritage protection as the coordinator of the Ambulance for Monuments – Bihor branch and has co-authored the national Architecture Guidelines for Rural Areas. Recognized with multiple awards, including two first prizes at the 2023 Transylvania Architecture Biennale, she continues to impact both theory and practice in architecture. With 11 citations across 2 documents and an h-index of 2, her scholarly work, though emerging, reflects her growing influence at the intersection of sustainable design, cultural heritage, and participatory architecture.

Profile: Scopus | ORCID

Featured Publications

Zsak, I.-G., Pescaru, A. H., & Manea, L.-D. (2025). Beyond energy efficiency: Integrating health, building pathology, and community through the building identity passport for prefabricated housing. Sustainability, 17(17), 8176.

Zsak, G. I., Pescaru, A. H., & Manea, L.-D. (2024). Analysis on using 3D scanning and BIM to reduce the physical and non-physical construction waste for sustainable fireproofing of steel trusses. Sustainability, 16(5), 1832.

Zsak, G. I. (2020). Ghiduri de arhitectură pentru încadrarea în specificul local din mediul rural. The Order of Architects of Romania.

Zsak, G. I. (2019, September 18). Regeneration of the industrial heritage in the central area of Oradea. In Materials Science and Engineering Conference Series (Vol. 603). IOP Publishing.

Dr. Tianyi Feng | Monitoring | Best Researcher Award

Published on by Computer Scientists Awards

Dr. Tianyi Feng | Monitoring | Best Researcher Award

Dr. Tianyi Feng , Post Doc, AVIC General Huanan Aircraft Industry Co., Ltd., China.

Dr. Tianyi Feng is a dedicated postdoctoral researcher at AVIC General Huanan Aircraft Industry Co., Ltd., with a strong foundation in aeronautical engineering. He earned his Ph.D. from Imperial College London, focusing on structural health monitoring in composite materials. His work emphasizes practical innovation and high-impact aerospace applications, particularly in damage detection, localization, and hydrodynamic load testing. Passionate about integrating sensor technologies into aircraft systems, Dr. Feng continues to make notable contributions to the aviation sector. His research strives to enhance safety, resilience, and performance in next-generation aerospace structures through applied scientific advancement.

Publication Profile

Scopus

🎓 Education Background

Tianyi Feng completed his doctoral degree in Aeronautics from the prestigious Imperial College London. His doctoral thesis revolved around the field of Structural Health Monitoring, with a particular emphasis on damage detection in composite laminates using ultrasonic guided waves and embedded PZT transducers. This rigorous academic training laid the groundwork for his innovative approaches in smart sensor integration and non-destructive evaluation techniques. His research combined experimental analysis, materials engineering, and signal processing, equipping him with the expertise necessary for tackling complex structural assessment challenges in advanced aircraft engineering applications.

👨‍💼 Professional Experience

Currently serving as a Postdoctoral Researcher at AVIC General Huanan Aircraft Industry Co., Ltd., Dr. Feng leads work in hydrodynamic load test flight technology for large amphibious aircraft. In his academic phase, he introduced practical innovations in composite health monitoring. Notably, during his doctoral studies, he developed a pioneering edge-cutting technique that preserved embedded circuit integrity post-curing. At AVIC, he designed and optimized a surface-mounted MEMS optical fiber pressure sensor system capable of withstanding high-velocity water impact, exceeding 67.5 m/s. His work bridges theoretical engineering and applied aerospace technology with a focus on real-world problem solving.

🏅 Awards and Honors

Though Dr. Feng’s formal list of awards is currently limited, his innovative contributions have received academic and industry recognition. His advanced design for embedded sensor protection and high-velocity hydrodynamic sensor deployment represents breakthroughs in aircraft structural monitoring. His doctoral research at Imperial College was highly regarded, contributing significantly to international publications in composite health monitoring. As his career progresses, Dr. Feng is poised for honors that recognize his interdisciplinary expertise and contributions to aeronautics. His impactful research is expected to earn future distinctions in aerospace innovation and structural testing excellence.

🔬 Research Focus

Dr. Feng’s research expertise centers around Structural Health Monitoring (SHM) and Hydrodynamic Load Monitoring. His work on composite laminates during his Ph.D. focused on ultrasonic guided waves and PZT sensors for internal damage detection. Transitioning to postdoctoral research, he expanded into large-scale test flight technologies for amphibious aircraft, innovating in surface-mounted pressure sensor design using MEMS optical fibers. His solutions are aimed at improving the integrity and resilience of aerospace structures in extreme environments. His dual focus blends materials science, signal diagnostics, and sensor integration to solve high-stakes challenges in aircraft engineering.

📌 Conclusion

Dr. Tianyi Feng stands out as a promising researcher in aerospace engineering, seamlessly combining academic excellence with industrial application. From innovating edge-cutting techniques in composite materials to advancing hydrodynamic load testing for amphibious aircraft, his work bridges theoretical rigor and real-world problem-solving. His commitment to engineering advancement and safety enhancement underscores his potential as a leading figure in structural diagnostics and flight technologies. With a portfolio of impactful publications and hands-on experience in sensor-based solutions, Dr. Feng is well-positioned to shape the future of intelligent aircraft systems.

📚 Top Publications with Notes

  1. Influence of Composite Thickness on Ultrasonic Guided Wave Propagation for Damage Detection Using Embedded PZT TransducersPublished: 2020, Journal: Sensors (MDPI)
    Cited by 29 articles

  2. Smart Patch for Structural Health Monitoring of Composite RepairPublished: 2020, Journal: Composite Structures
    Cited by 18 articles

  3. Structural Integrity Assessment of Composites Plates with Embedded PZT Transducers for Structural Health MonitoringPublished: 2021, Journal: Engineering Fracture Mechanics
    Cited by 15 articles

  4. Active Health Monitoring of Thick Composite Structures by Embedded and Surface-Mounted Piezo Diagnostic LayersPublished: 2022, Journal: Journal of Intelligent Material Systems and Structures
    Cited by 10 articles

  5. Preparation of robust superhydrophobic coatings with hydrophobic and tough micro/nano particlesPublished: 2021, Journal: Applied Surface Science
    Cited by 25 articles