Dr. Pengfei Zheng | Infrared Detection Awards | Best Researcher Award

Posted on by ScienceFather

Dr. Pengfei Zheng | Infrared Detection Awards | Best Researcher Award

Dr. Pengfei Zheng, zhengzhou university, China

Dr. Zheng Pengfei is a Lecturer, Postdoctoral Researcher, and Master’s Supervisor at a prominent Chinese institution, hailing from Luoyang, Henan, China. He earned his Ph.D. in Bridge and Tunnel Engineering from Central South University. His primary research focuses on the coupled analysis of bridge and deck structural systems, as well as the development of intelligent, non-contact structural health diagnosis technologies. These include cutting-edge methods utilizing infrared thermography, ground-penetrating radar, mobile sensor data, and unmanned vehicles. Dr. Zheng has led and contributed to several high-impact research projects funded by the Henan Provincial Science and Technology Department and the National Natural Science Foundation of China. His recent work has resulted in multiple top-tier publications in SCI-indexed journals and several invention patents under examination. His achievements were recognized with the Second Prize of the China Railway Society Science and Technology Award in 2024 for his contributions to intelligent inspection platforms for concrete structures using amphibious robotic systems. Dr. Zheng continues to push the frontiers of smart infrastructure monitoring and advanced sensor-driven diagnostics in civil engineering.

Professional Profile:

ORCID

SCOPUS

Summary of Suitability: Zheng Pengfei – Best Researcher Award

Zheng Pengfei, a lecturer, postdoctoral researcher, and master’s supervisor from Central South University, is a highly capable and forward-thinking researcher in the field of Bridge and Tunnel Engineering. His contributions over the past several years have demonstrated both academic excellence and real-world impact, particularly in the areas of structural health monitoring and bridge-rail system integration.

🎓 Education

  • Ph.D. in Bridge and Tunnel Engineering
    🏫 Central South University, China
    Specialized in advanced bridge-deck system analysis and non-contact health monitoring technologies.

💼 Work Experience

  • 👨‍🏫 Lecturer & Master’s Supervisor
    📍 Henan, China
    Engaged in teaching, research supervision, and applied R&D in bridge engineering and structural health monitoring.

  • 🔬 Postdoctoral Researcher
    🏗 Focused on structural system coupling analysis, and intelligent diagnostics using infrared thermography, GPR, and UAVs.

🧠 Research Achievements

  • Developed innovative non-contact health diagnosis technologies using:

    • 🔥 Infrared Thermography

    • 📡 Ground-Penetrating Radar

    • 🤖 Unmanned Vehicles (UAVs)

    • 📱 Crowdsourced Mobile Sensor Data

  • 🚄 Contributed to national-level projects including:

    • Long-span bridge and railway track interaction analysis

    • Rapid construction tech for scenic bridges

    • 5G-powered highway O&M digital systems

📝 Selected Publications (Recent, SCI-indexed)

  • 📘 Automation in Construction (Q1) – Real-time YOLO model for grouting defect detection

  • 📘 NDT&E International (Q1) – Multiple papers on infrared thermography for detecting voids in tendon ducts

  • 📘 Measurement (Q2) – Detection techniques using active thermal excitation

  • 📘 Frontiers of Structural and Civil Engineering (Q3) – ML-based seismic analysis for masonry-infilled RC frames

🧪 Patents (Recent, Under Review)

  • 🛰 UAV-Based Infrared Testing System with liquid nitrogen cooling

  • 🔍 YOLOv5 Model-based Grouting Detection

  • 🌡 Bridge Cable Water Detection using thermal imaging

  • 🔧 Temperature-Based Bearing Displacement Calculation method

🏅 Awards & Honors

  • 🥈 Second Prize, China Railway Society Science and Technology Award (2024)
    Awarded for the R&D and deployment of an intelligent inspection platform for concrete structures using air-land amphibious robots.

Publication Top Notes:

An improved Harris corner detection method for honeycomb structures

Infrared thermography detection of grouting defects in post-tensioned tendon ducts under active thermal excitation

Investigation of the applicability of infrared thermography detection of grouting voids in prestressed tendon ducts under hydration heat excitation

Infrared thermography detection of grouting defects in external post-tensioned tendon ducts under construction hydration heat excitation

Stress Analysis of Hollow Slab Bridge Deck Pavement

A comparative study on static properties of a three-main-truss and three-cable-plane cable-stayed bridge

Thayná Almeida | Thermographic images | Women Researcher Award

Posted on by ScienceFather

Dr.Thayná Almeida | Thermographic images | Women Researcher Award

Postdoc at Federal Rural University of Pernambuco,Brazil

Thayná Almeida is a dedicated researcher specializing in hydrology, soil science, and agricultural engineering, currently based in Brazil and Portugal. She is pursuing her Ph.D. at the Universidade Federal Rural de Pernambuco, focusing on the impact of climate change on groundwater resources. Thayná’s work emphasizes sustainable agricultural practices and innovative technologies in precision agriculture, particularly in semiarid regions. Her commitment to advancing knowledge in environmental sustainability has led her to collaborate on numerous interdisciplinary projects, contributing valuable insights into water resource management and soil conservation. Thayná has published several articles in reputable journals, making significant strides in her field and inspiring future generations of engineers and scientists.

Profile:

ORCID Profile

Strengths for the Award:

  1. Strong Academic Background:
    • Thayná has a solid educational foundation in Agricultural Engineering, holding a Bachelor’s, Master’s, and Ph.D. from the Universidade Federal Rural de Pernambuco. This extensive training underlines her expertise in her field.
  2. Diverse Research Contributions:
    • She has published numerous articles in reputable journals, covering a wide array of topics such as hydrology, soil science, and agricultural engineering. Notable works include studies on groundwater availability, thermal imaging applications, and soil moisture dynamics.
  3. Innovative Use of Technology:
    • Thayná’s research demonstrates a strong integration of modern technologies, including UAV-based classification and machine learning applications, which are critical in contemporary agricultural practices.
  4. Collaborative Efforts:
    • Her collaborations with other researchers enhance the impact of her work, indicating strong networking skills and the ability to work effectively in teams.
  5. Focus on Semiarid Regions:
    • Much of her research addresses pressing issues in semiarid regions, making her contributions highly relevant to current global challenges, particularly regarding climate change and sustainable agriculture.

Areas for Improvement:

  1. Broader Dissemination of Findings:
    • While Thayná has numerous publications, increasing visibility through outreach, workshops, and presentations at international conferences could enhance the impact of her research.
  2. Engagement with Policy Makers:
    • Strengthening connections with agricultural policy makers could ensure that her research findings are applied in practical, policy-oriented contexts, influencing sustainable agricultural practices.
  3. Interdisciplinary Collaboration:
    • Expanding collaborations beyond her primary field to include environmental science and climate policy could enrich her research perspectives and applications.

Education:

Thayná Almeida holds a Bachelor’s degree in Agricultural and Environmental Engineering from the Universidade Federal Rural de Pernambuco, completed in 2018. She furthered her education with a Master’s degree in Agricultural Engineering from the same institution, graduating in October 2020. Currently, she is pursuing her Ph.D. in Agricultural Engineering, with an expected completion date in July 2024. Her academic journey has equipped her with a strong foundation in hydrology, soil science, and geo-statistics, allowing her to contribute effectively to research in agriculture and environmental sustainability.

Experience:

Thayná Almeida has gained extensive research experience throughout her academic career, particularly in the fields of hydrology and agricultural engineering. She has actively collaborated with multidisciplinary teams on various projects, focusing on water resource management, soil conservation, and the application of advanced technologies in agriculture. Her practical experience includes field studies and data analysis, enabling her to evaluate the impacts of climate change on groundwater and agricultural systems. Thayná’s contributions have led to several publications in peer-reviewed journals, showcasing her expertise and commitment to advancing agricultural engineering and environmental sustainability.

Research Focus:

Thayná Almeida’s research primarily revolves around hydrology, soil science, and geo-statistics, with a particular emphasis on sustainable agricultural practices in semiarid regions. She investigates the effects of climate change on groundwater availability, soil moisture dynamics, and agricultural productivity. Her work includes the application of remote sensing and machine learning techniques to enhance precision agriculture and optimize resource use. By exploring innovative solutions for soil and water conservation, Thayná aims to contribute to sustainable agricultural development, addressing the challenges faced by farmers in vulnerable environments.

Publications Top Notes:

  • Hydrogeological trends in an alluvial valley in the Brazilian semiarid: Impacts of observed climate variables change and exploitation on groundwater availability and salinity 🌊
  • UAV-Based Classification of Intercropped Forage Cactus: A Comparison of RGB and Multispectral Sample Spaces Using Machine Learning in an Irrigated Area 🌵
  • Evaluating Daily Water Stress Index (DWSI) Using Thermal Imaging of Neem Tree Canopies under Bare Soil and Mulching Conditions 🌞
  • Assessing soil temperature and moisture fluctuations under irrigated banana (Musa spp.) cultivation in response to coconut coir mulch cover 🍌
  • Spatial variability of biophysical multispectral indexes under heterogeneity and anisotropy for precision monitoring 📊
  • Spatio-Temporal Dynamics and Physico-Hydrological Trends in Rainfall, Runoff and Land Use in Paraíba Watershed 🌧️
  • Spatiotemporal Analysis of Rainfall and Droughts in a Semiarid Basin of Brazil: Land Use and Land Cover Dynamics 🏞️
  • Green roofs: environmental contributions with an emphasis on carbon sequestration 🌿
  • Coupling water resources and agricultural practices for Sorghum in a semiarid environment 🌾
  • Soil and crop spatial variability in maize irrigated with domestic effluent 🌽
  • Evaluating mulch cover with coir dust and cover crop with Palma cactus as soil and water conservation techniques for semiarid environments: Laboratory soil flume study under simulated rainfall 💧
  • Use of alternative soil covers for the control of soil loss in semiarid regions 🌍
  • Spatial dependence of attributes of rainfed maize under distinct soil cover conditions 🌽
  • Spatio Temporal Soil Moisture Dynamics and Runoff under Different Soil Cover Conditions in a Semiarid Representative Basin in Brazil 🌊

Conclusion:T

Thayná Almeida exemplifies the qualities of a leading researcher in her field. Her rigorous academic background, innovative research, and commitment to addressing significant environmental issues make her a strong candidate for the Best Researcher Award. By enhancing her outreach efforts and interdisciplinary collaborations, she could further amplify the impact of her contributions to agricultural engineering and environmental sustainability.