Half-Duplex Base Station with Adaptive Scheduling of the in-Band Uplink-Receptions and Downlink-Transmissions
Mohsen Mohammadkhani Razlighi, Nikola Zlatanov

TL;DR
This paper introduces an adaptive scheduling scheme for half-duplex base stations that optimizes uplink and downlink throughput and minimizes outage probabilities, outperforming traditional full-duplex systems.
Contribution
It proposes a novel adaptive scheduling method for half-duplex base stations that enhances throughput and diversity gains compared to conventional full-duplex systems.
Findings
Increased uplink-downlink rate/throughput region.
Doubling of the diversity gain for uplink and downlink channels.
Outperforms conventional full-duplex base stations.
Abstract
In this paper, we propose a novel reception/transmission scheme for half-duplex base stations (BSs). In particular, we propose a half-duplex BS that employes in-band uplink-receptions from user 1 and downlink-transmissions to user 2, which occur in different time slots. Furthermore, we propose optimal adaptive scheduling of the in-band uplink-receptions and downlink-transmissions of the BS such that the uplink-downlink rate/throughput region is maximized and the outage probabilities of the uplink and downlink channels are minimized. Practically, this results in selecting whether in a given time slot the BS should receive from user 1 or transmit to user 2 based on the qualities of the in-band uplink-reception and downlink-transmission channels. Compared to the performance achieved with a conventional full-duplex division (FDD) base station, two main gains can be highlighted: 1) Increased…
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Taxonomy
TopicsFull-Duplex Wireless Communications · Cooperative Communication and Network Coding · Advanced MIMO Systems Optimization
