Research Themes & Projects

Exploring the frontiers of electromagnetic scattering through innovative research and collaboration

Our Research Portfolio

Random Media Scattering Ongoing

Advanced Scattering Theory for Quantitative Microwave Remote Sensing

Electromagnetic Theory Computational EM Random Medium Scattering Remote Sensing AI for Science High-Performance Computing

A featured research theme developing advanced random media scattering models to support quantitative microwave remote sensing of natural environments incorporating advances in electromagnetic theroy, computatioinal electromagnetics, artificial intelligence, high-performance computing, and quantum computing.

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RSHub Project Ongoing

RSHub: Cloud Computing for Microwave Scattering and Data Interpretation

Computational EM Cloud Computing Remote Sensing Random Medium Scattering AI for Science

An integrated cloud-computing platform for microwave scattering modeling and data interpretation, enabling researchers worldwide to perform intelligent and complex simulations without local computational constraints.

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RSStation Project Ongoing

On-Campus Microwave Observation System

Instrumentation Environmental Monitoring Data Acquisition

Development of a microwave scatterometer for environmental monitoring installed on campus with in situ observations to validate remote sensing models and algorithms.

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UAV-borne SAR Ongoing

UAV-Borne SAR for Stereoscopic Sensing

Synthetic Aperture Radar Stereoscopic Environmental Sensing Data Acquisition SAR Signal Processing

Development of a portable UAV-borne SAR system as well as its signal processing and interpretation algorithms for enhanced environmental monitoring with stereoscopic sensing capabilities.

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AI in Remote Sensing Ongoing

AI for Science in Quantitative Microwave Remote Sensing

Remote Sensing AI for Science Retrieval Algorithm Data Interpretation

A featured research theme developing advanced microwave remote sensing data interpretation, retrieval, and product generation algorithms coupling microwave scattering physics and AI techniques featuring data science and LLMs.

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Altay Snow Campaign Ongoing

Altay Snow Remote Sensing Campaign

Snow Remote Sensing Field Campaign Snow Melting Processes

Collaboration with leading remote sensing institutes to perform snow microwave remote sensing campaigns addressing snow melting features in the Altay region.

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Periodic Structure Scattering Ongoing

Advanced Scattering Theory for Wave-functional Materials and Devices

Electromagnetic Theory Computational EM Periodic Structure Scattering Wave-functional Materials & Devices

A featured research theme developing advanced periodic and aperiodic structure scattering models to support design and optimization of wave-functional materials and devices with applications in photonic crystals, metamaterials, metasurfaces, and quantum optics.

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EM Information Theory Ongoing

Electromagnetic Information Theory

Electromagnetic Information Theory Reconfigurable Intelligent Surface Communication Channel Integrated Communication and Sensing

A featured research theme addressing the coupling between electromagnetic scattering and information theory to lay foundations for advanced sensing and communication technology.

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EM Environement Effects Ongoing

Electromagnetic Environement Effects on Advanced Sensing and Communication Systems

Electromagnetic Environment Effects Electromagnetic Interference and Integrity EM Metrology through Reverberation Chamber

A featured research theme addressing the reliability of advanced sensing and communication system in complex electromagnetic environements through innovative modeling and measurement techniques.

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VR EM Lab Ongoing

VR Electromagnetic Laboratory

Virtual Reality Education Technology AI Enhancement

Development of a virtual reality enabled and artificial intelligence enhanced electromagnetic laboratory to transform traditional electromagnetics education and research.

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Interested in Joining Our Research?

We're always looking for motivated students and researchers to join our team. Explore our open positions or contact us to discuss potential research opportunities.

View Open Positions