The following publications are possibly variants of this publication:
- Low-Latency Guarantee Protocol Based on Multi-links Scheduling Random Access in the Next Generation WLAN: IEEE 802.11beLuoting Gan, Bo Li 0089, Mao Yang 0001, Zhongjiang Yan. sgiot 2021: 286-296 [doi]
- DRA-OFDMA: Double Random Access Based QoS Oriented OFDMA MAC Protocol for the Next Generation WLANRun Zhou, Bo Li 0004, Mao Yang, Zhongjiang Yan, Annan Yang. monet, 24(5):1425-1436, 2019. [doi]
- Soft Channel Reservation Towards Latency Guarantee for the Next Generation WLAN: IEEE 802.11beJianfei Cheng, Bo Li 0089, Mao Yang 0001, Zhongjiang Yan. iotaas 2021: 450-461 [doi]
- Coordinated TDMA MAC Scheme Design and Performance Evaluation for the Next Generation WLAN: IEEE 802.11beHuanhuan Cai, Bo Li 0089, Mao Yang 0001, Zhongjiang Yan. sgiot 2021: 297-306 [doi]
- An Uplink OFDMA Access Method for Low Latency in Next-Generation WLANsQingsong Gao, Ding Wang, Mao Yang, Bo Li, Zhongjiang Yan. sgiot 2023: 214-226 [doi]
- AP Coordination and Full-duplex enabled Multi-band Operation for the Next Generation WLAN: IEEE 802.11be (EHT)Mao Yang, Bo Li 0004, Zhongjiang Yan, Yuan Yan. wcsp 2019: 1-7 [doi]
- Utility optimization of grouping-based uplink OFDMA random access for the next generation WLANsAnnan Yang, Bo Li 0004, Mao Yang 0001, Zhongjiang Yan, Yi Xie. winet, 27(1):809-823, 2021. [doi]
- Spatial Clustering Group Based OFDMA Multiple Access Scheme for the Next Generation WLAN (Invited Paper)Yong Li, Bo Li, Mao Yang, Zhongjiang Yan. iotaas 2018: 365-372 [doi]