Optimal Spectrum Sharing with ARQ based Legacy Users via Chain Decoding
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This paper investigates the design of access policies in spectrum sharing networks by exploiting the retransmission protocol of legacy primary users (PUs) to improve the spectral efficiency via opportunistic retransmissions at secondary users (SUs) and chain decoding [1]. The optimal access policy which maximizes the SU throughput under a maximum interference constraint to the PU and its performance are found in closed form. It is shown that the optimal policy randomizes among three modes: 1) Idle: the SU remains idle over the retransmission window of the PU, to avoid interfering; 2) Interference cancellation: the SU transmits only after decoding the PU packet, to improve its own throughput via interference cancellation; 3) Always transmit: the SU transmits over the retransmission window of the PU to maximize the future potential of interference cancellation via chain decoding. This structure is exploited to design a stochastic gradient descent algorithm to facilitate learning and adaptation in settings where the model parameters are unknown or vary over time, based on ARQ feedback from the PU and CSI measurements at the SU receiver. It is shown numerically that, for a 10% interference constraint, the optimal access policy yields 15% improvement over a state-of-the-art scheme without selective SU retransmissions, and up to 2× gain over a scheme using a non-adaptive access policy instead of the optimal one.
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