A Groundbreaking Achievement by Professor Wang Xingjun and Researcher Shu Haowen's Team from Peking University's School of Electronics Engineering in Ultra-Broadband Optoelectronic Integrated 6G Wirel

2025-08-28 / Read about 0 minute

Author：小编

In the relentless pursuit of meeting the escalating demand for ubiquitous connectivity, future wireless communication networks will dynamically and real-time harness the full spectrum of resources to cater to a myriad of application scenarios. High-frequency millimeter waves and terahertz bands promise unparalleled data rates and minimal latency, paving the way for data-intensive applications like Extended Reality (XR) and remote surgery. Concurrently, the Sub-6 GHz and microwave bands will maintain their crucial role in providing extensive coverage. Moreover, the system must embody real-time spectrum reconfiguration capabilities to guarantee efficient spectrum utilization and robust connections amidst complex environments.

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