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One such evolutionary path which is currently fuelling a lot of interest is multi\u2010hop. This scheme uses one or more relays to forward transmissions between the base station (BS) and the target user equipment (UE). Given a large enough density of relays, there will always be a more path loss efficient multi\u2010hop route between the BS and target UE than the direct hop one. However, it is not so obvious how this will translate into realizable improvements in cell throughput and coverage. The actual benefits of multi\u2010hop are dependent upon a number of key system choices such as the scheduling algorithm and type of antenna array processing used. This paper considers through simulation how the benefits of multi\u2010hop vary for systems that employ combinations of round robin or equal throughput scheduling with either 2 or 4 element maximal ratio combining. 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