An Adaptive Rate Allocation System to Mitigate Starvation Dilemma in Multi-Radio Multi-Hop Wireless Mesh Networks

Abstract: To this date, although a rich surge of research studies have been conducted on Wireless Mesh Networks (WMNs), still impartial distribution of network resources is one of the open issues in this area. In WMNs, stations that are more hops away from the gateway nodes generally suffer from higher throughput degradation and delay. One of the key reasons for the occurrence of such an incident is the existing limitations in MAC layers of wireless technologies. In this paper, a thorough solution based on an adaptive r… Show more

“…1 and Table I, respectively. Detailed information about the utilized equipment and MR setup can be found in [19]. To configure the radios to operate in Ad-Hoc mode, Atheros-9k (ath9k) as the driver and iw as the netlink CLI utility (nl80211) are utilized.…”

A comparative study of channel switching latency for conventional and SDN-based routing in multi-hop multi-radio Wireless Mesh Networks

“…1 and Table I, respectively. Detailed information about the utilized equipment and MR setup can be found in [19]. To configure the radios to operate in Ad-Hoc mode, Atheros-9k (ath9k) as the driver and iw as the netlink CLI utility (nl80211) are utilized.…”

A comparative study of channel switching latency for conventional and SDN-based routing in multi-hop multi-radio Wireless Mesh Networks

“…Wireless mesh networks (WMNs) are multi‐hop networks which can extend the coverage of current wireless networks, and they are considered as potential techniques for constructing next generation wireless communication systems [1, 2]. Capacity is a major concern in WMNs, and its decay with increased interference is very fast [3].…”

POCs‐ and uniform description of interference‐based routing metric design for MG WMNs

Meta-Heuristic Solution for Dynamic Association Control in Virtualized Multi-Rate WLANs