00000cab a22000003a 4500 UP-99796217609625054 Buklod 20231007234506.0 m |o d | ta 110121s xx d | ||r ||||| || DENGII eng Lu, B. Throughput of CDMA data networks with multiuser detection, ARQ, and packet combining. pp. 1576-1589 In code-division multiple-access (CDMA) packet data networks, the throughput depends on physical-layer receiver algorithms and medium access control (MAC) layer protocols. Taking a holistic approach, we investigate the throughput of a CDMA network employing linear multiuser detection, type-I automatic retransmission request (ARQ), and packet combining. In particular, the following two models of CDMA data networks are considered. 1) Fixed-access CDMA data networks, by which we mean that the number of active users is fixed. The corresponding throughput is analyzed by using a one-dimensional Markov chain, and conditions for achieving the optimal throughput are explored. 2) Random-access CDMA data networks, in which we take into account the random arrivals/departures of users. By viewing the fixed-access network studied in the first case as a snapshot of the random-access network, we exploit the results therein to analyze the random-access network, under a processor-sharing system model. Moreover, we identify some important properties of the corresponding throughput and devise a simple recursive algorithm to find the throughput-optimal admission region. Some recent advances on large-system performance of various multiuser detection algorithms are employed in our study. The results in this paper quantitatively characterize the potential for network throughput gain by employing multiuser detection and packet combining, in both fixed-access and random-access CDMA packet data networks. ARQ. CDMA data networks throughput. Automatic retransmission request. Code division multiple access. Fixed-access network. Medium access control layer protocol. Multiuser detection. One-dimensional Markov chain. Packet combining. Physical-layer receiver algorithm. Processor sharing system model. Random access networks. Recursive algorithm. Throughput-optimal admission region. IEEE Transactions on wireless communications 3, 5 (2004). FO UPD DENG-II Article