Abstract
Near-fleld inductive channels created between two or more magnetically coupled inductive nodes are studied in this paper. Peer- to-peer conflgurations and array architectures are discussed. The array channels are used for cooperative relaying with inductive methods with potential to provide range extension and enhanced data rate access in magnetic induction communication systems. The received power shows the presence of the nearest neighbour interactions and the in∞uences of higher order coupling from nodes two or more positions away from the receiver. This in∞uence causes phase changes in the communication system. Four methods of exciting the antenna arrays are proposed. These are array edge excitation, center excitation, collinear array excitation and multi-array excitation. Experiments with hardware nodes show that while array edge excitation provides increased power at the array edge, it is out performed by array center excitation which results to twice the power captured at the array center node compared to the power captured at edge excited flrst element. We demonstrate by example that a receiver is in∞uenced most by its neighbouring nodes on both sides and that the efiects of second and third tier neighbours are relatively insigniflcant.
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