Bridging Theory & Hardware
I am a wireless systems researcher bridging the gap between theoretical signal processing and real-world hardware implementation. Currently, I am a Postdoctoral Fellow at CONNECT (Trinity College Dublin), focusing on the prototyping of Orthogonal Time Frequency Space (OTFS) modulation for high-mobility 6G scenarios.
My journey in wireless research has taken me across Asia and Europe. Before moving to Ireland, I completed my Ph.D. at National Sun Yat-sen University in Taiwan and served as a Visiting Research Scholar at NTU Singapore (Temasek Lab).
I specialize in solving complex optimization problems for next-generation networks, particularly in Integrated Sensing and Communications (ISAC) and Reconfigurable Intelligent Surfaces (RIS). My goal is to move beyond simulation, implementing these algorithms on SDRs to prove their viability for the future of connectivity.
Core Research Areas
OTFS & High Mobility
Designing and prototyping OTFS transceivers to combat Doppler shifts in high-speed scenarios (trains, UAVs). Implementation using Software Defined Radios (SDR).
ISAC Systems
Integrated Sensing and Communications. Developing waveforms that simultaneously transmit data and sense the environment (radar), optimizing resource allocation for dual-function systems.
RIS & Hardware Impairments
Working with Reconfigurable Intelligent Surfaces (RIS) to shape wireless environments. My research accounts for hardware impairments (non-linearities) to ensure robust system performance.
Next-Gen Multiple Access
Investigating NOMA (Non-Orthogonal Multiple Access) and RSMA (Rate-Splitting Multiple Access) to massively increase spectral efficiency for IoT and 6G networks.
Global Research Footprint
India
NIT Rourkela
M.Tech (2017-2019)
Taiwan
NSYSU
Ph.D. (2021-2024)
Singapore
NTU (Temasek Lab)
Visiting Scholar (2024)
Ireland
Trinity College Dublin
Postdoc (Current)