On Fundamental Limits for Fluid Antenna-assisted Integrated Sensing and Communications for Unsourced Random Access

This paper investigates the unsourced random access (URA) problem for integrated sensing and commutations (ISAC). Recent results reveal that conventional multiple access strategies for ISAC such as treating interference as noise (TIN) and time-division multiple access (TDMA) can be easily overwhelmed and fail to support the increasingly surging number of active users. Hence, the unsourced ISAC (UNISAC) system model has emerged as a promising enabler for the future ISAC networks. To advance this work, we adopt a more realistic channel model and propose to utilize fluid antenna system (FAS) for UNISAC. The achievable performance bound and floor of the proposed FAS-UNISAC are derived to validate the great potential. Our results demonstrate that promising improvement on the available user volume and the sensing and communication capability can be obtained due to the spatial diversities inherent within fluid antenna.