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A new link scheduling approach for millimeter wave wireless mesh network is presented. The proposed link scheduling solution is designed to work together with a multiple overlapping spanning trees-based routing schemes on a mesh network topology. The link schedule computation will minimize the end-to-end delay along a subset of shortest-hop paths from non-gateway nodes to a gateway node of the mesh,...
The new services available through smart devices require very high cellular network capacity. The capacity requirement is expected to increase exponentially with the forthcoming 5G networks. The only available spectrum for truly wideband communication (>1 GHz) is at millimeter wavelengths. The high free space loss can be overcome by using the directive and beam-steerable antennas. This paper describes...
Static Wireless Mesh Networks (WMN) based on high capacity pencil-beam millimeter wave (mmWave) links offer an attractive solution for small cell backhauling in 5G networks. However, the delay targets in 5G are such that it is quite challenging to develop adequate link scheduling and routing mechanisms. Furthermore, the susceptibility of mmWave radio links to adverse weather conditions and other obstructions...
We describe a novel wireless backhaul solution, called Self-Optimizing Wireless Mesh Network (SWMN), which is targeted for interconnecting 5G small cell nodes cost-efficiently and smartly. SWMN is not only highly resilient and scalable, but it is also equipped with advanced Self-Organizing Network (SON) capabilities offering autonomous network configuration and traffic engineering features. The key...
The growing subscriber demand for better mobile broadband experiences is encouraging the industry to look ahead at the future 5G networks: how can they be readied to meet extreme capacity and performance demands for both access and backhaul applications. The large bandwidth of spectrum available in E-band (71–76 GHz & 81–86 GHz) makes for an attractive resource to support such capacity gains....
We will demonstrate an innovative network topology aware holistic smart backhaul solution — Self-optimizing Wireless Mesh Network (SWMN), supporting a partial mesh wireless backhaul implementation that is not only highly resilient and scalable, but also equipped with advanced SON (Self-Organizing Network) capabilities offering autonomous network configuration and traffic engineering features.
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