Research Areas
Classical and Quantum Signal Processing
Our research focuses on the theoretical foundations and practical implementations of signal processing techniques spanning both classical and quantum domains. We investigate how quantum correlations and classical signal processing methods can be jointly exploited to enhance detection, estimation, and imaging performance beyond conventional limits.
Software-Defined Radio and Experimental Signal Processing
We utilize software-defined radio (SDR) platforms to prototype and validate advanced signal processing algorithms. Our work includes modulation design, harmonic modulation, adaptive transmission schemes, and real-time signal analysis. These platforms enable rapid testing of theoretical concepts in practical environments.
Millimeter-Wave Systems and Advanced RF Architectures
We design and develop high-frequency systems operating in the millimeter-wave (mmWave) regime. Our research includes frequency multiplication, harmonic signal generation, and RF front-end design for next-generation communication, sensing, and radar applications. Experimental validation using SDR platforms and custom hardware is a key component of our work.
Electromagnetic Sensing and Non-Destructive Testing (NDT)
Our research includes the development of electromagnetic sensing techniques for material characterization and non-destructive testing. We focus on mmWave-based inspection systems and AI-driven analysis methods for applications such as solar cell diagnostics and advanced material evaluation.
Classical and Quantum Signal Processing Research Lab 