Integrated Sensing and Communication for Large Networks using a Dynamic Transmission Strategy and Full Duplex
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A large network employing integrated sensing and communication (ISAC) where a single transmit signal by the base station (BS) serves both the radar and communication modes is studied. Typically in ISAC, bistatic radar detection is done at a passive radar. The radar-mode performance is significantly more vulnerable than the communication-mode due to the double path-loss in the signal component while interferers have direct links. To combat this, we propose: 1) monostatic radar detection at the BS via full-duplex (FD), 2) a novel dynamic transmission strategy (DTS). With FD monostatic detection we are able to improve radar-mode performance over bistatic detection in certain scenarios, while bistatic detection dominates in others. We also analyze the performance of joint bistatic and FD monostatic detection. Significant improvements in radar-performance can be attained with joint detection in certain scenarios, while using one strategy is beneficial in others. Our results highlight that with the DTS we are able to significantly improve quality of radar detection at the cost of quantity. Further, DTS causes some performance deterioration to the communication-mode; however, the gains attained for the radar-mode are much higher. We show that joint detection and DTS together can significantly improve radar performance from a traditional radar-network.
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