no code implementations • 2 Mar 2022 • Mingliang Xiong, Shun Han, Qingwen Liu, Shengli Zhou
However, this system has problems such as intra-cavity echo interference and power fluctuation.
no code implementations • 9 Oct 2021 • Mingliang Xiong, Qingwen Liu, Shengli Zhou
It has been proposed as the carrier of wireless charging and communication.
no code implementations • 20 Jul 2021 • Mingliang Xiong, Qingwen Liu, Shengli Zhou, Shun Han, Mingqing Liu
The increasing demands of power supply and data rate for mobile devices promote the research of simultaneous wireless information and power transfer (SWIPT).
no code implementations • 25 Jun 2021 • Mingliang Xiong, Qingwen Liu, Gang Wang, Georgios B. Giannakis, Sihai Zhang, Jinkang Zhu, Chuan Huang
Resonant beam communications (RBCom) is capable of providing wide bandwidth when using light as the carrier.
no code implementations • 21 Jun 2021 • Mingliang Xiong, Qingwen Liu, Xin Wang, Shengli Zhou, Bin Zhou, Zhiyong Bu
In this paper, we propose an intra-cavity SHG RBCom system to simplify the system design and improve the energy conversion efficiency.
no code implementations • 18 Feb 2021 • Mingqing Liu, Mingliang Xiong, Qingwen Liu
Simultaneous lightwave information and power transfer (SLIPT) has been regarded as a promising technology to deal with the ever-growing energy consumption and data-rate demands in the Internet of Things (IoT).
no code implementations • 30 Jan 2021 • Mingliang Xiong, Mingqing Liu, Qingwei Jiang, Jie zhou, Qingwen Liu, Hao Deng
Optical wireless communications (OWC) utilizing infrared or visible light as the carrier attracts great attention in 6G research.
no code implementations • 18 Apr 2020 • Mingliang Xiong, Qingwen Liu, Gang Wang, Georgios B. Giannakis, Chuan Huang
Wireless optical communications (WOC) has carriers up to several hundred terahertz, which offers several advantages, such as ultrawide bandwidth and no electromagnetic interference.
no code implementations • 3 Feb 2018 • Mingqing Liu, Qingwen Liu, Mingliang Xiong, Hao Deng, Xinhe Wang
We propose here the next generation of power delivery network -- mobile power network (MPN) for wireless power transfer within a mobile range from several meters to tens of meters.