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Shangbin Wu
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2020 – today
- 2024
- [j17]Zihui Wang, Zhaopeng Peng
, Xiaoliang Fan
FedAVE: Adaptive data value evaluation framework for collaborative fairness in federated learning. Neurocomputing 574: 127227 (2024) - 2022
- [j16]Baiqi Lai, Weiquan Liu
2D3D-MVPNet: Learning cross-domain feature descriptors for 2D-3D matching based on multi-view projections of point clouds. Appl. Intell. 52(12): 14178-14193 (2022) - [c22]Shangbin Wu, Xu Yan, Xiaoliang Fan, Shirui Pan, Shichao Zhu, Chuanpan Zheng, Ming Cheng, Cheng Wang:
Multi-Graph Fusion Networks for Urban Region Embedding. IJCAI 2022: 2312-2318 - [i7]Shangbin Wu, Xu Yan, Xiaoliang Fan, Shirui Pan, Shichao Zhu, Chuanpan Zheng, Ming Cheng, Cheng Wang:
Multi-Graph Fusion Networks for Urban Region Embedding. CoRR abs/2201.09760 (2022) - 2021
- [c21]Shangbin Wu, Xiaoliang Fan, Longbiao Chen, Ming Cheng, Cheng Wang:
Predicting the spread of COVID-19 in China with human mobility data. SIGSPATIAL/GIS 2021: 240-243 - [c20]Joan S. Pujol-Roigl, Shangbin Wu, Yue Wang
Deep Reinforcement Learning for cell on/off energy saving on Wireless Networks. GLOBECOM 2021: 1-7 - [c19]Navdeep Uniyal, Anderson Bravalheri, Xenofon Vasilakos
Intelligent Mobile Handover Prediction for Zero Downtime Edge Application Mobility. GLOBECOM 2021: 1-6 - [c18]Shangbin Wu, Junwei Ren, Tiezhu Zhao, Yue Wang
Machine learning based signal strength and uncertainty prediction for MEC mobility management. VTC Fall 2021: 1-5 - 2020
- [j15]Shangbin Wu
Deep Convolutional Neural Network Assisted Reinforcement Learning Based Mobile Network Power Saving. IEEE Access 8: 93671-93681 (2020) - [j14]Lu Bai
A Novel Atmosphere-Informed Data-Driven Predictive Channel Modeling for B5G/6G Satellite-Terrestrial Wireless Communication Systems at Q-Band. IEEE Trans. Veh. Technol. 69(12): 14225-14237 (2020) - [c17]Mythri Hunukumbure, Oluwatayo Y. Kolawole, Shangbin Wu, Yinan Qi:
Indoor 3D localization in emergency scenarios through drone based rapid 5G deployment. GLOBECOM (Workshops) 2020: 1-5 - [c16]Shangbin Wu, Galini Tsoukaneri, Belkacem Mouhouche
Q-Learning based Link Adaptation in 5G. PIMRC 2020: 1-6
2010 – 2019
- 2019
- [j13]Lu Bai, Cheng-Xiang Wang
Channel Modeling for Satellite Communication Channels at Q-Band in High Latitude. IEEE Access 7: 137691-137703 (2019) - [j12]Xiaoqing Zhang
Spectral efficiency of massive MIMO networks with pilot contamination and channel covariance matrix estimation. IET Commun. 13(1): 59-65 (2019) - [j11]Xiaoqing Zhang
Achievable Rate Analysis of the Generalized Spatial Modulation Uplink in Multi-Cell Multi-User Systems in the Face of Pilot Contamination. IEEE Trans. Veh. Technol. 68(9): 8435-8448 (2019) - [c15]Galini Tsoukaneri, Shangbin Wu, Yue Wang
Probabilistic Preamble Selection with Reinforcement Learning for Massive Machine Type Communication (MTC) Devices. PIMRC 2019: 1-6 - [c14]Shangbin Wu, Xiaoqing Zhang
A Low-Complexity Antenna-La-Aware Spatial Covariance Matrix Estimation Method. WCNC Workshops 2019: 1-6 - [i6]Qianru Zhou, Stephen McLaughlin, Alasdair J. G. Gray, Shangbin Wu, Chengxiang Wang:
Lost Silence: An emergency response early detection service through continuous processing of telecommunication data streams. CoRR abs/1903.05372 (2019) - [i5]Shangbin Wu, Xiaoqing Zhang:
A Low-Complexity Antenna-Layout-Aware Spatial Covariance Matrix Estimation Method. CoRR abs/1904.13296 (2019) - 2018
- [j10]Jianhua Zhang, Mansoor Shafi, Andreas F. Molisch, Fredrik Tufvesson, Shangbin Wu, Koshiro Kitao:
Channel Models and Measurements for 5G. IEEE Commun. Mag. 56(12): 12-13 (2018) - [j9]Mansoor Shafi, Jianhua Zhang, Harsh Tataria, Andreas F. Molisch, Shu Sun, Theodore S. Rappaport, Fredrik Tufvesson, Shangbin Wu, Koshiro Kitao:
Microwave vs. Millimeter-Wave Propagation Channels: Key Differences and Impact on 5G Cellular Systems. IEEE Commun. Mag. 56(12): 14-20 (2018) - [j8]Shangbin Wu, Cheng-Xiang Wang
A General 3-D Non-Stationary 5G Wireless Channel Model. IEEE Trans. Commun. 66(7): 3065-3078 (2018) - [c13]Shangbin Wu, Yinan Qi:
Centralized and Distributed Schedulers for Non-Coherent Joint Transmission. GLOBECOM Workshops 2018: 1-6 - [i4]Shangbin Wu, Yue Wang, Mohammed Al-Imari, Maziar M. Nekovee
Frequency and Quadrature Amplitude Modulation for 5G Networks. CoRR abs/1803.02729 (2018) - [i3]Shangbin Wu, Maziar M. Nekovee
Single cell and multi-cell performance analysis of OFDM index modulation. CoRR abs/1803.02730 (2018) - [i2]Shangbin Wu:
Genetic Algorithm Assisted Hybrid Beamforming for Wireless Fronthaul. CoRR abs/1803.02741 (2018) - 2017
- [j7]Shangbin Wu, Maziar M. Nekovee
Single-cell and multi-cell performance analysis of OFDM index modulation. IET Commun. 11(7): 1021-1027 (2017) - [c12]Lu Bai, Cheng-Xiang Wang
Performance comparison of six massive MIMO channel models. ICCC 2017: 1-5 - [c11]Qianru Zhou, Stephen McLaughlin, Alasdair J. G. Gray, Shangbin Wu, Chengxiang Wang:
Lost Silence: an Emergency Response Early Detection Service through Continuous Processing of Telecommunication Data Streams. WSP/WOMoCoE@ISWC 2017: 33-47 - [c10]Lu Bai, Cheng-Xiang Wang
A 3-D Wideband Multi-Confocal Ellipsoid Model for Wireless Massive MIMO Communication Channels with Uniform Planar Antenna Array. VTC Spring 2017: 1-6 - [c9]Stephan Jaeckel, Leszek Raschkowski, Shangbin Wu, Lars Thiele, Wilhelm Keusgen:
An Explicit Ground Reflection Model for mm-Wave Channels. WCNC Workshops 2017: 1-5 - [c8]Xiaoqing Zhang
Uplink pilot power control with genetic algorithm for massive MIMO networks. WCSP 2017: 1-6 - 2016
- [j6]Cheng-Xiang Wang
Recent advances and future challenges for massive MIMO channel measurements and models. Sci. China Inf. Sci. 59(2): 1-16 (2016) - [j5]Ruixia Liu, Yinglong Wang, Shangbin Wu, Cheng-Xiang Wang
Energy efficiency and area spectral efficiency tradeoff for coexisting wireless body sensor networks. Sci. China Inf. Sci. 59(12): 122311:1-122311:15 (2016) - [j4]Maziar M. Nekovee
Overview of 5G modulation and waveforms candidates. J. Commun. Inf. Networks 1(1): 44-60 (2016) - [j3]Piya Patcharamaneepakorn, Shangbin Wu, Cheng-Xiang Wang
Spectral, Energy, and Economic Efficiency of 5G Multicell Massive MIMO Systems With Generalized Spatial Modulation. IEEE Trans. Veh. Technol. 65(12): 9715-9731 (2016) - [c7]Shangbin Wu, Yue Wang
Frequency and quadrature amplitude modulation for 5G networks. EuCNC 2016: 1-5 - [c6]Shangbin Wu, Sooyoung Hur, Kuyeon Whang, Maziar M. Nekovee
Intra-Cluster Characteristics of 28 GHz Wireless Channel in Urban Micro Street Canyon. GLOBECOM 2016: 1-6 - [c5]Lu Bai, Cheng-Xiang Wang
A 3-D wideband multi-confocal ellipsoid model for wireless MIMO communication channels. ICC 2016: 1-6 - [c4]Shangbin Wu, Cheng-Xiang Wang
Performance comparison of massive MIMO channel models. ICCC 2016: 1-6 - [i1]Shangbin Wu, Sooyoung Hur, Kuyeon Whang, Maziar M. Nekovee
Intra-cluster Characteristics of 28 GHz Wireless Channel in Urban Micro Street Canyon. CoRR abs/1607.01924 (2016) - 2015
- [j2]Shangbin Wu, Cheng-Xiang Wang
A Non-Stationary Wideband Channel Model for Massive MIMO Communication Systems. IEEE Trans. Wirel. Commun. 14(3): 1434-1446 (2015) - [c3]Shangbin Wu, Cheng-Xiang Wang
A novel Kronecker-based stochastic model for massive MIMO channels. ICCC 2015: 1-6 - [c2]Shangbin Wu, Piya Patcharamaneepakorn, Cheng-Xiang Wang
A novel method for ergodic sum rate analysis of spatial modulation systems with maximum likelihood receiver. IWCMC 2015: 32-36 - 2014
- [j1]Shangbin Wu, Cheng-Xiang Wang
A Non-Stationary 3-D Wideband Twin-Cluster Model for 5G Massive MIMO Channels. IEEE J. Sel. Areas Commun. 32(6): 1207-1218 (2014) - [c1]Shangbin Wu, Cheng-Xiang Wang
Capacity analysis of finite scatterer MIMO wireless channels. ICC 2014: 4559-4564
Coauthor Index
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