Primary Channel Selection in Dynamic Channel Bonding Using Laser Chaos Decision Maker

Abstract

Channel Bonding is a technique used to aggregate multiple wireless communication channels in order to enhance data transfer speeds. Initially introduced in IEEE 802.11n, it has been adapted to the newer IEEE 802.11ax standard, and so on. While this technology enables faster communications, it also suffers from interference issues due to increased bandwidth utilization. Previous studies have extensively focused on bandwidth selection to minimize channel interference, often requiring significant time. This paper proposes an approach that utilizes the Laser chaos decision maker to rapidly determine the optimal channel for dynamic channel bonding. We design our algorithm based on the scalable laser chaos decision maker and evaluate its performance through computer simulations. The results demonstrate that the proposed method has the capability to make more accurate selections than other algorithms.