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Context-Aware Nanoscale Modeling of Multicast Multihop Cellular Networks

2012; Institute of Electrical and Electronics Engineers; Volume: 21; Issue: 2 Linguagem: Inglês

10.1109/tnet.2012.2199129

1558-2566

Beatriz Lorenzo, Savo Glisic,

Advanced Wireless Network Optimization

In this paper, we present a new approach to optimization of multicast in multihop cellular networks. We apply a hexagonal tessellation for inner partitioning of the cell into smaller subcells of radius $r$ . Subcells may be several orders of magnitude smaller than, e.g., microcells, resulting in what we refer to as a nanoscale network model (NSNM), including a special nanoscale channel model (NSCM) for this application. For such tessellation, a spatial interleaving SI MAC protocol is introduced for context-aware interlink interference management. The directed flooding routing protocol (DFRP) and interflooding network coding (IFNC) are proposed for such a network model including intercell flooding coordination (ICFC) protocol to minimize the intercell interference. By adjusting the radius of the subcell $r$ , we obtain different hopping ranges that directly affect the throughput, power consumption, and interference. With $r$ as the optimization parameter, in this paper we jointly optimize scheduling, routing, and power control to obtain the optimum tradeoff between throughput, delay, and power consumption in multicast cellular networks. A set of numerical results demonstrates that the NSNM enables high-resolution optimization of the system and an effective use of the context awareness.