A renewal theory based performance and configuration framework of the IEEE 802.11ah RAW mechanism

International Data Corporation, 2020 Baños Gonzalez, 2016, IEEE 802.11ah: a technology to face the IoT challenge, Sensors, 16, 1960, 10.3390/s16111960 IEEE standard for information technology–telecommunications and information exchange between systems, 2017, Local and metropolitan area networks–specific requirements - part 11: wireless lan medium access control (MAC) and physical layer (PHY) specifications amendment 2: sub 1 GHz license exempt operation, 1 Safavat, 2020, Recent advances in mobile edge computing and content caching, Digit. Commun. Network, 6, 189, 10.1016/j.dcan.2019.08.004 Ai, 2018, Edge computing technologies for internet of things: a primer, Digit. Commun. Network, 4, 77, 10.1016/j.dcan.2017.07.001 Biral, 2015, The challenges of M2M massive access in wireless cellular networks, Digit. Commun. Network, 1, 1, 10.1016/j.dcan.2015.02.001 Zhou, 2013, Advances in IEEE 802.11ah standardization for machine-type communications in sub-1GHz WLAN, 1269 Khorov, 2015, A survey on ieee 802.11ah: an enabling networking technology for smart cities, Comput. Commun., 58, 53, 10.1016/j.comcom.2014.08.008 Ahmed, 2016, A comparison of 802.11ah and 802.15.4 for IoT, ICT Express, 2, 100, 10.1016/j.icte.2016.07.003 Sun, 2013, IEEE 802.11 ah: a long range 802.11 WLAN at sub 1 GHz, J.ICT.Stand, 1, 83 Park, 2015, IEEE 802.11ah: sub-1-GHz license-exempt operation for the internet of things, IEEE Commun. Mag., 53, 145, 10.1109/MCOM.2015.7263359 Domazetović, 2016, Performance evaluation of IEEE 802.11ah systems, 1 Šljivo, 2018, Performance evaluation of IEEE 802.11ah networks with high-throughput bidirectional traffic, Sensors, 18, 325, 10.3390/s18020325 Tian, 2016, Evaluation of the IEEE 802.11ah restricted access window mechanism for dense IoT networks, 1 Raeesi, 2014, Performance enhancement and evaluation of IEEE 802.11ah multi-access Point network using restricted access window mechanism, 287 Raeesi, 2014, Performance evaluation of IEEE 802.11ah and its restricted access window mechanism, 460 Khorov, 2015, Modelling machine type communication in IEEE 802.11ah networks, 1149 Wang, 2015, Energy-aware adaptive restricted access window for IEEE 802.11ah based networks, 1211 Wang, 2015, Energy-aware adaptive restricted access window for IEEE 802.11ah based smart grid networks, 581 Wang, 2017, Energy-aware restricted access window control with retransmission scheme for IEEE 802.11ah (Wi-Fi HaLow) based networks, 69 Zheng, 2014, Performance analysis of group-synchronized DCF for dense IEEE 802.11 networks, IEEE Trans. Wireless Commun., 13, 6180, 10.1109/TWC.2014.2337315 Chang, 2015, Load-balanced sensor grouping for IEEE 802.11ah networks, 1 Nawaz, 2017, Throughput enhancement of restricted access window for uniform grouping scheme in IEEE 802.11ah, 1 Bianchi, 2000, Performance analysis of the IEEE 802.11 distributed coordination function, IEEE J. Sel. Area. Commun., 18, 535, 10.1109/49.840210 Qutab-ud din, 2015, Performance analysis of IoT-enabling IEEE 802.11ah technology and its RAW mechanism with non-cross slot boundary holding schemes, 1 Ali, 2018, Efficiency of restricted access window scheme of IEEE 802.11ah under non-ideal channel condition, 251 Ali, 2019, Performance evaluation of heterogeneous IoT nodes with differentiated QoS in IEEE 802.11ah RAW mechanism, IEEE Trans. Veh. Technol., 68, 3905, 10.1109/TVT.2019.2897127 Khorov, 2019, Enabling the internet of things with Wi-Fi Halow—performance evaluation of the restricted access window, IEEE Access, 7, 127402, 10.1109/ACCESS.2019.2939760 Gallager, 2013 Ling, 2008, A renewal theory based analytical model for the contention access period of IEEE 802.15.4 MAC, IEEE Trans. Wireless Commun., 7, 2340, 10.1109/TWC.2008.070048 Zhang, 2013, A new method for analyzing nonsaturated IEEE 802.11 DCF networks, IEEE.Wireless.Commun. Lett., 2, 243, 10.1109/WCL.2013.012513.120826 Khairy, 2019, A renewal theory based analytical model for multi-channel random access in IEEE 802.11ac/ax, IEEE Trans. Mobile Comput., 18, 1000, 10.1109/TMC.2018.2857799 Malone, 2006, On buffer sizing for voice in 802.11 WLANs, IEEE Commun. Lett., 10, 701, 10.1109/LCOMM.2006.060400 Boujnoui, 2020, Performance evaluation and tuning of an IEEE 802.11 audio video multicast collision prevention mechanism, Wireless Network, 26, 5047, 10.1007/s11276-020-02364-6 Khorov, 2020, Modeling of real-time multimedia streaming in Wi-Fi networks with periodic reservations, IEEE Access, 8, 55633, 10.1109/ACCESS.2020.2981838 Burden, 2015 Chatzimisios, 2003, Influence of channel BER on IEEE 802.11 DCF, Electron. Lett., 39, 1687, 10.1049/el:20031081