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(English Abstract) |
In this paper, we investigate a power control problem which is very critical in underlay-based spectrum sharing systems. Although an underlay-based spectrum sharing system is more efficient compared to an overlay-based spectrum sharing system in terms of spectral utilization, some practical problems obstruct its commercialization. One of them is a real-time-based power adaptation of secondary transmitters. In the underlay-based spectrum sharing system, it is essential to adapt secondary user¡¯s transmit power to interference channel states to secure primary users¡¯ communication. Thus, we propose a practical power control scheme for secondary transmitters. The feedback overhead of our proposed scheme is insignificant because it requires one-bit signaling, while the optimal power control scheme requires the perfect information of channel states. In addition, the proposed scheme is robust to feedback delay. We compare the performance of the optimal and proposed schemes in terms of primary user¡¯s outage probability and secondary user¡¯s throughput. Our simulation results show that the proposed scheme is almost optimal in terms of both primary user¡¯s outage probability and secondary user¡¯s throughput when the secondary user¡¯s transmit power is low. As the secondary user¡¯s transmit power increases, the primary user¡¯s outage probability of the proposed scheme is degraded compared with the optimal scheme while the secondary user¡¯s throughput still approaches that of the optimal scheme. If the feedback delay is considered, however, the proposed scheme approaches the optimal scheme in terms of both the primary user¡¯s outage probability and secondary user¡¯s throughput regardless of the secondary user¡¯s transmit power. |
