On the Performance Analysis of Zero-Padding OFDM for Monostatic ISAC Systems
arxiv(2024)
摘要
This paper considers an integrated sensing and communication (ISAC) system
with monostatic radar functionality using a zero-padding orthogonal frequency
division multiplexing (ZP-OFDM) downlink transmission. We focus on ISAC's
sensing aspect, employing an energy-detection (ED) method. The ZP-OFDM
transmission is motivated by the fact that sensing can be performed during the
silent periods of the transmitter, thereby avoiding self-interference (SI)
cancellation processing of the in-band full duplex operation, which is needed
for the cyclic prefix (CP)-OFDM. Additionally, we also show that ZP-OFDM can
reject nearby clutter interference. We derive the probability of detection (PD)
for the ZP and CP-OFDM systems, allowing useful performance analyses. In
particular, we show that the PD expressions lead to an upper bound for the
ZP-OFDM transmission, which is useful for selecting the best ZP size for a
given system configuration. We also provide an expression that allows range
comparison between ZP and CP-OFDM, where we consider a general case of
imperfect SI cancellation for the CP-OFDM system. The results show that when
the ZP size is 25
system range is only 17
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