LAUSR

The IEEE 802.11ah standard was developed from IEEE 802.11, which works on a Wireless Local Area Networks (WLAN). This standard works in the sub-band 1GHz, to increase the range of an Access Point (AP) up to 1 km2, with the ability to handle approximately 8000 stations (STA). The IEEE 802.11ah standard occurs in the MAC and PHY layers. However, the high number of STAs produces high collision, therefore this standard introduces the Restricted Access Window (RAW) at the MAC layer. This research accurately examines a surrogate model to predict RAW performance under hidden nodes scenario. The solution to the surrogate model was analyzed using the Markov chain and numerically simulated with Matlab. Furthermore, the Markov chain solution is used to determine the performance measure parameters, namely throughput, energy consumption, and average delay. This research also examines the effect of hidden nodes on the IEEE 802.11ah standard network’s performance, especially in RAW, with variables obtained using Bianchi’s approach. The result showed that the simulated RAW slot duration of 52 μs on the IEEE 802.11ah standard made performance results better than 104 μs and 156 μs. The effect of the hidden nodes makes the successful transmission time probability longer due to its increment.