Dr. Xiangyu Xie | Wireless Sensor Awards | Best Researcher Award

Dr. Xiangyu Xie, Guiyang University, China

Dr. Xiangyu Xie is a highly skilled researcher and engineer specializing in sensor technologies and material analytics. He currently serves as a Senior Lab Master and Group Leader of Materials Engineering at Guiyang University, where he has been leading projects since October 2017. Dr. Xie is expected to complete his PhD in Materials Science and Engineering from Harbin Engineering University by December 2024. His academic journey began with a Master’s degree in Mechanical Engineering from Guizhou University (2014–2017) and a Bachelor’s degree in Mechanical Engineering from Hunan Institute of Science and Technology (2010–2014). With extensive experience in data manipulation and project management, Dr. Xie has played a pivotal role in the Detection and Localization of Threats Project and the development of Novel Sensing Networks for Intelligent Monitoring, both funded by the National Natural Science Foundation of China. His work focuses on advanced sensor systems, including the development of RFID sensors for strain and damage mapping, and his ability to handle complex projects with evolving priorities has made him a strong leader in his field.

Professional Profile:

SCOPUS

Summary of Suitability for Best Researcher Award

Dr. Xiangyu Xie is highly suitable for the Best Researcher Award due to his extensive qualifications, project leadership experience, and innovative contributions to the field of sensor technologies and materials science. His academic background, including a Ph.D. in Materials Science and Engineering (expected in 2024), coupled with his Master’s and Bachelor’s degrees in Mechanical Engineering, demonstrates a solid foundation in engineering and materials research.

Working Experience and Education 🎓

Harbin Engineering University, Harbin, China
📚 Doctor of Philosophy (PhD) in Materials Science and Engineering (Expected: December 2024)
Guiyang University, Guiyang, China
🔬 Senior Lab Master, Group Leader of Materials Engineering (Oct 2017–Present)
Guizhou University, Guiyang, China
🎓 Master of Science in Mechanical Engineering (Sep 2014–June 2017)
Hunan Institute of Science and Technology, Yueyang, China
🎓 Bachelor of Science in Mechanical Engineering (Sep 2010–June 2014)

Project Experience 🧪

Detection and Localization of Threats Project (National Natural Science Foundation of China) (Mar 2023–Present)
🔍 Led project direction, data processing, and qualitative/quantitative analyses.
Novel Sensing Networks for Intelligent Monitoring (National Natural Science Foundation of China) (Jun 2021–Present)
🛠️ Planned content themes and developed novel structures for RFID sensors in strain and damage mapping.

Highlight of Qualifications 🌟

🔹 Rich internship and project experience in sensor technologies and material analytics with strong data manipulation skills.
🔹 Exceptional communication and interpersonal skills for effective collaboration and project management.
🔹 Self-motivated and capable of managing complex projects while balancing multiple priorities in demanding timelines.

Publication top Notes:

Passive wireless RFID strain sensor for directional-independent structural deformation monitoring

Influence of HCl in Photo-catalyzed Oxidation of Cyclohexane with Decatungstate or PMo_12-nV_n

An RFID smart structure using inkjet-printed additive manufacturing technology for metal crack characterization

High-Sensitivity RFID Tag Sensor with Coupled Ring Resonators for Multi-Position Crack Monitoring

Reliable Crack Monitoring Based on Guided Wave Through Periodically Loaded Transmission Line

Re-transmission Crack Sensor based on Re-configurable Series Ring Resonator

Introduction of Wireless Sensors and WSN

Wireless sensors and Wireless Sensor Networks (WSN) are at the forefront of the Internet of Things (IoT) revolution, enabling the seamless monitoring and collection of data from the physical world.

Energy-Efficient Sensor Design:

Investigating energy-efficient sensor technologies, including low-power sensors and energy harvesting techniques, to prolong sensor lifetimes and reduce maintenance.

Wireless Sensor Network Protocols:

Focusing on the development of efficient communication protocols for WSNs, ensuring reliable data transmission, network scalability, and resistance to interference.

IoT Integration and Interoperability:

Addressing the integration of wireless sensors into the broader IoT ecosystem, emphasizing standardization and interoperability to enable seamless data exchange and analytics.

Environmental Monitoring with WSNs:

Analyzing the use of WSNs for environmental applications, including air and water quality monitoring, weather forecasting, and ecosystem management.

Healthcare and Medical Sensor Networks:

Exploring wireless sensor networks in healthcare for remote patient monitoring, medical device connectivity, and real-time health data collection.

Industrial Automation and Smart Manufacturing:

Investigating the role of WSNs in industrial automation, process control, predictive maintenance, and quality assurance for increased efficiency and reduced downtime.

Security and Privacy in WSNs:

Focusing on security and privacy considerations in WSNs, including encryption, authentication, and data protection, to safeguard sensitive information.

Smart Agriculture and Precision Farming:

Addressing the use of wireless sensors for precision agriculture, optimizing crop management, soil monitoring, and livestock tracking for sustainable farming practices.

Disaster Response and Sensing:

Analyzing the deployment of WSNs in disaster-prone areas for early warning systems, structural health monitoring, and post-disaster recovery efforts.

Data Management and Analytics in WSNs:

Exploring techniques for efficient data storage, retrieval, and analytics in WSNs, enabling meaningful insights from vast sensor-generated datasets.