| A survey on routing protocols for large-scale wireless sensor networks C Li, H Zhang, B Hao, J Li Sensors 11 (4), 3498-3526, 2011 | 217 | 2011 |
| Capacity of cooperative vehicular networks with infrastructure support: Multiuser case J Chen, G Mao, C Li, W Liang, D Zhang IEEE Transactions on Vehicular Technology 67 (2), 1546-1560, 2017 | 177 | 2017 |
| Resource scheduling in edge computing: A survey Q Luo, S Hu, C Li, G Li, W Shi IEEE Communications Surveys & Tutorials 23 (4), 2131-2165, 2021 | 123 | 2021 |
| Performance evaluation of IEEE 802.15. 4 for wireless body area network (WBAN) C Li, HB Li, R Kohno 2009 IEEE International conference on communications workshops, 1-5, 2009 | 121 | 2009 |
| Bee-sensor-C: an energy-efficient and scalable multipath routing protocol for wireless sensor networks X Cai, Y Duan, Y He, J Yang, C Li International Journal of Distributed Sensor Networks 11 (3), 976127, 2015 | 96 | 2015 |
| Vehicle position correction: A vehicular blockchain networks-based GPS error sharing framework C Li, Y Fu, FR Yu, TH Luan, Y Zhang IEEE Transactions on Intelligent Transportation Systems 22 (2), 898-912, 2020 | 81 | 2020 |
| A topological approach to secure message dissemination in vehicular networks J Chen, G Mao, C Li, D Zhang IEEE Transactions on Intelligent Transportation Systems 21 (1), 135-148, 2019 | 78 | 2019 |
| A mobility-aware vehicular caching scheme in content centric networks: Model and optimization Y Zhang, C Li, TH Luan, Y Fu, W Shi, L Zhu IEEE Transactions on Vehicular Technology 68 (4), 3100-3112, 2019 | 76 | 2019 |
| A decision-making strategy for vehicle autonomous braking in emergency via deep reinforcement learning Y Fu, C Li, FR Yu, TH Luan, Y Zhang IEEE transactions on vehicular technology 69 (6), 5876-5888, 2020 | 75 | 2020 |
| LSGO: Link state aware geographic opportunistic routing protocol for VANETs X Cai, Y He, C Zhao, L Zhu, C Li EURASIP Journal on wireless communications and networking 2014, 1-10, 2014 | 75 | 2014 |
| Vehicular blockchain-based collective learning for connected and autonomous vehicles Y Fu, FR Yu, C Li, TH Luan, Y Zhang Ieee wireless communications 27 (2), 197-203, 2020 | 74 | 2020 |
| Collaborative data scheduling for vehicular edge computing via deep reinforcement learning Q Luo, C Li, TH Luan, W Shi IEEE Internet of Things Journal 7 (10), 9637-9650, 2020 | 71 | 2020 |
| Throughput of infrastructure-based cooperative vehicular networks J Chen, G Mao, C Li, A Zafar, AY Zomaya IEEE Transactions on Intelligent Transportation Systems 18 (11), 2964-2979, 2017 | 64 | 2017 |
| Reservation-based dynamic TDMA protocol for medical body area networks C Li, HB Li, R Kohno IEICE transactions on communications 92 (2), 387-395, 2009 | 64 | 2009 |
| Development trends of mobile communication systems for railways R Chen, WX Long, G Mao, C Li IEEE Communications Surveys & Tutorials 20 (4), 3131-3141, 2018 | 60 | 2018 |
| A novel medium access control protocol with low delay and traffic adaptivity for wireless body area networks C Li, B Hao, K Zhang, Y Liu, J Li Journal of medical systems 35, 1265-1275, 2011 | 55 | 2011 |
| Geographic routing in multilevel scenarios of vehicular ad hoc networks L Zhu, C Li, B Li, X Wang, G Mao IEEE Transactions on vehicular technology 65 (9), 7740-7753, 2015 | 53 | 2015 |
| Geographic routing protocol for vehicular ad hoc networks in city scenarios: a proposal and analysis C Li, C Zhao, L Zhu, H Lin, J Li International Journal of Communication Systems 27 (12), 4126-4143, 2014 | 47 | 2014 |
| Performance analysis of IEEE 802.15. 6-based coexisting mobile WBANs with prioritized traffic and dynamic interference X Yuan, C Li, Q Ye, K Zhang, N Cheng, N Zhang, X Shen IEEE Transactions on Wireless Communications 17 (8), 5637-5652, 2018 | 42 | 2018 |
| Self-learning based computation offloading for internet of vehicles: Model and algorithm Q Luo, C Li, TH Luan, W Shi, W Wu IEEE Transactions on Wireless Communications 20 (9), 5913-5925, 2021 | 38 | 2021 |
