DC8 Qing Zhang (KU Leuven)
Qing Zhang is a doctoral candidate in the Networked Systems, Waves: Core Research and Engineering (WaveCore) group at the Department of Electrical Engineering (ESAT), Katholieke Universiteit Leuven. As part of the 6th Sense project, her research focuses on developing fusion techniques for multi-band channel observations, leveraging accurate estimation of multi-band parameters. She aims to enhance multi-band sensing for detecting subtle environmental changes without transmitting large volumes of raw channel state information (CSI).
She completed her Master’s in Electrical Engineering, specializing in Wireless Communication and Sensing, at Delft University of Technology in 2023. She holds a double Bachelor’s degree from Shanghai Maritime University and HZ University of Applied Sciences.
Her passion is to advance multi-band sensing techniques and contribute to cutting-edge research and development in next-generation wireless communication networks.

Qing Zhang’s articles and posts

• Why Millimeter Wave Frequencies Change Physical Layer Security? - Modern wireless systems are shifting toward higher frequency bands, including millimeter wave and beyond, to exploit wider bandwidths for higher data rates and reduced latency [1]. While these bands unlock significant performance gains, they also fundamentally change how wireless channels behave. As a result, long-standing assumptions about security mechanisms that rely on physical channel properties […]
• Why New Waveforms Matter for JCAS - The Challenge of Communication and Sensing in One System 6G networks will not only connect people but also sense the world around them. This is the vision of Joint Communication and Sensing (JCAS): a single system that can stream data and, at the same time, detect objects, measure distances, and estimate velocities. But there is […]
• Why Transparent Antennas are Critical to JCAS in Mobile Devices? - Each generation of wireless communication has brought transformative changes to our daily lives and the design of mobile devices. With 6G on the horizon, one of its most promising features—Joint Communication and Sensing (JCAS)—aims to merge wireless connectivity with high-precision sensing. Today, most JCAS research focuses on base stations, where large antenna arrays enable advanced […]
• Why Dynamic Multi-Band Selection is Critical for JCAS ? - In the evolving landscape of Joint Communication and Sensing (JCAS), the ability to flexibly choose between multiple frequency bands is not just a convenience, it’s a strategic enabler. From autonomous vehicles coordinating at dense urban intersections to UAVs conducting terrain mapping while maintaining data links, multi-band adaptability enables dynamic spectrum allocation across diverse operational scenarios. […]
• Why Phase Synchronization is Critical for JCAS Localization - In the world of Joint Communication and Sensing (JCAS), achieving precise localization is a game-changer. Whether it’s enabling autonomous vehicles to navigate complex environments or powering smart infrastructure, accuracy in localization is critical. One of the most fundamentally essential aspects in this domain is phase synchronization.   The Power of Phase in Localization Phase information […]