Abstract
Multi-radio multi-channel (MRMC) wireless mesh networks (WMNs) achieve higher throughput using multiple simultaneous transmissions and receptions. However, due to limited number of non-overlapping channels, such networks suffer from co-channel interference, which degrades their performance. To mitigate co-channel interference, effective channel assignment algorithms (CAAs) are desired. In this article, we propose a novel CAA, Topology-controlled Interference-aware Channel-assignment Algorithm (TICA), for MRMC WMNs. This algorithm uses topology control based on power control to assign channels to multi-radio mesh routers such that co-channel interference is minimized, network throughput is maximized, and network connectivity is guaranteed. We further propose to use two-way interference-range edge coloring, and call the improved algorithm Enhanced TICA (e-TICA), which improves the fairness among flows in the network. However, the presence of relatively long links in some topologies leads to conflicting channel assignments due to their high interference range. To address this issue, we propose to utilize minimum spanning tree rooted at the gateway to reduce conflicting channels, and in turn, improve medium access fairness among the mesh nodes. We call the improved algorithm e-TICA version 2 (e-TICA2). We evaluate the performance of the proposed CAAs using simulations in NS2. We show that TICA significantly outperforms the Common Channel Assignment scheme in terms of network throughput, and e-TICA and e-TICA2 achieve better fairness among traffic flows as compared to TICA. It is also shown that e-TICA2 leads to improved network throughput, as compared to TICA and e-TICA.
Highlights
In multi-radio multi-channel (MRMC) wireless mesh networks (WMNs), a key issue is the co-channel interference from simultaneous transmissions of mesh nodes located within the interference range of each other, which degrades the capacity of the network
Our proposed channel assignment algorithms (CAAs), e-TICA2, minimizes conflicting channels by employing an Minimum Spanning Tree (MST) rooted at the gateway in combination with topology control based on power control and two-way interference-range edge coloring
In e-TICA2, MST leads to shorter links/hops having shorter interference range, which leads to reduced Least Interfering Channel (LIC), improved fairness in medium access and improved network throughput
Summary
In multi-radio multi-channel (MRMC) wireless mesh networks (WMNs), a key issue is the co-channel interference from simultaneous transmissions of mesh nodes located within the interference range of each other, which degrades the capacity of the network. The main goal of a Topology Control Algorithm (TCA) is to minimize the co-channel interference, enhance spatial channel reuse, and maintain network connectivity through the selection of minimum transmission power for each radio interface. We propose centralized Channel Assignment Algorithms (CAAs), which build a controlled topology using power control with the goal of minimizing interference between Mesh Routers (MRs) and ensuring network connectivity at the same time. An enhancement of e-TICA, e-TICA version 2 (eTICA2), which employs a Minimum Spanning Tree (MST) rooted at the gateway instead of a Shortest Path Tree (SPT) employed in TICA and e-TICA, to reduce conflicting channels This approach improves medium access fairness among the mesh nodes, which leads to an improvement in the network throughput. Our proposed CAA, e-TICA2, minimizes conflicting channels by employing an MST rooted at the gateway in combination with topology control based on power control and two-way interference-range edge coloring. The channel propagation model used is either free-space propagation model or two-ray propagation model, depending on the cross-over distance
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