no code implementations • 6 Aug 2022 • Heng Zhang, Guangjin Pan, Shugong Xu, Shunqing Zhang, Zhiyuan Jiang
In the proposal, LSTM networks are employed to predict traffic demand and the location of each user in a slicing window level.
no code implementations • 24 Feb 2020 • Fei Peng, Zhiyuan Jiang, Shunqing Zhang, Shugong Xu
Real-time status update in future vehicular networks is vital to enable control-level cooperative autonomous driving.
Information Theory Networking and Internet Architecture Information Theory
no code implementations • 13 Feb 2020 • Yan Liu, Zhiyuan Jiang, Shunqing Zhang, Shugong Xu
Ultra-Reliable and Low-Latency Communications (URLLC) services in vehicular networks on millimeter-wave bands present a significant challenge, considering the necessity of constantly adjusting the beam directions.
no code implementations • 6 Mar 2019 • Zhiyuan Jiang, Sheng Zhou, Zhisheng Niu
Future wireless access networks need to support diversified quality of service (QoS) metrics required by various types of Internet-of-Things (IoT) devices, e. g., age of information (AoI) for status generating sources and ultra low latency for safety information in vehicular networks.
no code implementations • 4 Dec 2018 • Sheng Chen, Zhiyuan Jiang, Sheng Zhou, Zhisheng Niu
In this paper, we propose a learning-based low-overhead beam alignment method for vehicle-to-infrastructure communication in vehicular networks.
no code implementations • 4 Dec 2018 • Ruichen Deng, Zhiyuan Jiang, Sheng Zhou, Shuguang Cui, Zhisheng Niu
Timely and accurate knowledge of channel state information (CSI) is necessary to support scheduling operations at both physical and network layers.
no code implementations • 4 Dec 2018 • Zhiyuan Jiang, Ziyan He, Sheng Chen, Andreas F. Molisch, Sheng Zhou, Zhisheng Niu
Channel state information (CSI) is of vital importance in wireless communication systems.
no code implementations • 3 Dec 2018 • Zhiyuan Jiang, Sheng Chen, Andreas F. Molisch, Rath Vannithamby, Sheng Zhou, Zhisheng Niu
Knowledge of information about the propagation channel in which a wireless system operates enables better, more efficient approaches for signal transmissions.