Challenges toward wireless communications for high-speed railway B Ai, X Cheng, T Kürner, ZD Zhong, K Guan, RS He, L Xiong, DW Matolak, ... IEEE transactions on intelligent transportation systems 15 (5), 2143-2158, 2014 | 533 | 2014 |
Cell-free massive MIMO: A new next-generation paradigm J Zhang, S Chen, Y Lin, J Zheng, B Ai, L Hanzo IEEE Access 7, 99878-99888, 2019 | 470 | 2019 |
The design and applications of high-performance ray-tracing simulation platform for 5G and beyond wireless communications: A tutorial D He, B Ai, K Guan, L Wang, Z Zhong, T Kürner IEEE communications surveys & tutorials 21 (1), 10-27, 2018 | 378 | 2018 |
High-speed railway communications: From GSM-R to LTE-R R He, B Ai, G Wang, K Guan, Z Zhong, AF Molisch, C Briso-Rodriguez, ... Ieee vehIcular technology magazIne 11 (3), 49-58, 2016 | 367 | 2016 |
5G key technologies for smart railways B Ai, AF Molisch, M Rupp, ZD Zhong Proceedings of the IEEE 108 (6), 856-893, 2020 | 317 | 2020 |
When mobile crowd sensing meets UAV: Energy-efficient task assignment and route planning Z Zhou, J Feng, B Gu, B Ai, S Mumtaz, J Rodriguez, M Guizani IEEE Transactions on Communications 66 (11), 5526-5538, 2018 | 284 | 2018 |
Terahertz communication for vehicular networks S Mumtaz, JM Jornet, J Aulin, WH Gerstacker, X Dong, B Ai IEEE Transactions on Vehicular Technology 66 (7), 2017 | 279 | 2017 |
Future railway services-oriented mobile communications network B Ai, K Guan, M Rupp, T Kurner, X Cheng, XF Yin, Q Wang, GY Ma, Y Li, ... IEEE Communications Magazine 53 (10), 78-85, 2015 | 261 | 2015 |
On indoor millimeter wave massive MIMO channels: Measurement and simulation B Ai, K Guan, R He, J Li, G Li, D He, Z Zhong, KMS Huq IEEE journal on selected areas in communications 35 (7), 1678-1690, 2017 | 260 | 2017 |
Channel measurements and models for high-speed train communication systems: A survey CX Wang, A Ghazal, B Ai, Y Liu, P Fan IEEE communications surveys & tutorials 18 (2), 974-987, 2015 | 256 | 2015 |
Propagation channels of 5G millimeter-wave vehicle-to-vehicle communications: Recent advances and future challenges R He, C Schneider, B Ai, G Wang, Z Zhong, DA Dupleich, RS Thomae, ... IEEE vehicular technology magazine 15 (1), 16-26, 2019 | 242 | 2019 |
On the synchronization techniques for wireless OFDM systems B Ai, Z Yang, C Pan, J Ge, Y Wang, Z Lu IEEE Transactions on Broadcasting 52 (2), 236-244, 2006 | 229 | 2006 |
Vehicle-to-vehicle propagation models with large vehicle obstructions R He, AF Molisch, F Tufvesson, Z Zhong, B Ai, T Zhang IEEE Transactions on Intelligent Transportation Systems 15 (5), 2237-2248, 2014 | 225 | 2014 |
Geometrical-based modeling for millimeter-wave MIMO mobile-to-mobile channels R He, B Ai, GL Stüber, G Wang, Z Zhong IEEE transactions on vehicular technology 67 (4), 2848-2863, 2017 | 217 | 2017 |
A non-stationary wideband channel model for massive MIMO communication systems S Wu, CX Wang, H Haas, MM Alwakeel, B Ai IEEE transactions on wireless communications 14 (3), 1434-1446, 2014 | 211 | 2014 |
Measurements and analysis of propagation channels in high-speed railway viaducts R He, Z Zhong, B Ai, G Wang, J Ding, AF Molisch IEEE Transactions on Wireless Communications 12 (2), 794-805, 2012 | 209 | 2012 |
Structured massive access for scalable cell-free massive MIMO systems S Chen, J Zhang, E Björnson, J Zhang, B Ai IEEE Journal on Selected Areas in Communications 39 (4), 1086-1100, 2020 | 202 | 2020 |
Envelope level crossing rate and average fade duration of nonisotropic vehicle-to-vehicle Ricean fading channels X Cheng, CX Wang, B Ai, H Aggoune IEEE transactions on intelligent transportation systems 15 (1), 62-72, 2013 | 198 | 2013 |
A nonstationary wideband MIMO channel model for high-mobility intelligent transportation systems A Ghazal, CX Wang, B Ai, D Yuan, H Haas IEEE Transactions on Intelligent Transportation Systems 16 (2), 885-897, 2014 | 190 | 2014 |
Cooperative MIMO channel modeling and multi-link spatial correlation properties X Cheng, CX Wang, H Wang, X Gao, XH You, D Yuan, B Ai, Q Huo, ... IEEE Journal on Selected Areas in Communications 30 (2), 388-396, 2012 | 188 | 2012 |