design, numerical results are provided for showing the superiority over conventional ISAC designs. [7/7 of https://t.co/i2zPoq2yMh]
conventional orthogonal multiple access-based and pure-NOMA-based uplink ISAC as special cases, thus being capable of providing flexible resource allocation strategies between sensing and communication. Along each proposed NOMA-ISAC [6/7 of https://t.co/i2
cancellation order is employed for distinguishing the mixed sensing-communication signal received over the fully shared radio resources. Then, we propose a general \emph{semi-NOMA-based} uplink ISAC design, which includes the [5/7 of https://t.co/i2zPoq2yM
inter-user interference and the sensing-to-communication interference, respectively. (2) For the uplink ISAC, we first propose a \emph{pure-NOMA-based} uplink ISAC design, where a fixed communication-to-sensing successive interference [4/7 of https://t.co/