Abstract
In this paper, we study how the capacity and coverage of voice over internet protocol (VoIP) in the WCDMA uplink can be improved by using advanced base station receivers capable of multi-user detection (MUD). To avoid the complexity of joint-detection, a multi-stage successive interference cancellation (SIC) detector or parallel interference cancellation (PIC) detector is used as an implementation of MUD. To further reduce complexity, time-division multiplexing (TDM) is used to separate user groups in time so that MUD can focus on a smaller number of overlapping signals. SIC or PIC cancels a number of temporarily detected user signals from the receive signal before detecting another user signal. A temporarily detected user signal can be regenerated based on demodulated data or decoded data, and based on hard-decision values or soft-decision values. We find that a two-stage SIC or PIC process improves VoIP performance significantly and having more detection stages beyond two does not further improve performance by much. The improved performance allows a VoIP user to reduce the average transmit power, which translates to VoIP capacity and coverage increases. Furthermore, we find that the individual user performance is not sensitive to its detection order. We also quantify the relative performance between the various signal regeneration schemes considered. As expected, post-decoding interference cancellation (IC) offers a significant gain over pre-decoding IC. Furthermore, we find that post-decoding IC is robust to traffic load variations. Also, soft-decision based cancellation achieved the best performance. However, the performance improvement is small compared to hard-decision based cancellation. Finally, we see that MUD can work with G-Rake to suppress one dominant other-cell interfering signal, e.g., due to a high-data-rate user in another cell.
Published Version
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