Performance Analysis of Large CDMA Random Access Systems with Retransmission Diversity over Fading Channels

The random access systems, with retransmission diversity (RD) employment, over large random spreading code division multiple access (CDMA) channel subject to fading is investigated, under the assumption of infinite number of users and infinite spreading gain with their ratio converging to a constant. The low bound of the signal to interference and noise ratio (SINR) is shown to converge almost surely to a constant. The throughput, spectrum efficiency and energy efficiency in the dominating systems are obtained. The analytical results are confirmed by simulations. We find that in high traffic loads the throughput with fading is higher than that without. When the energy efficiency increases, the spectrum efficiency tends to two contrary values due to SNR increases or decreases. For the ordinary stable systems, the stability region is shown to shrink as the traffic increases and enlarge with RD employment.

[1]  J.E. Mazo,et al.  Digital communications , 1985, Proceedings of the IEEE.

[2]  Bernard Fino,et al.  Multiuser detection: , 1999, Ann. des Télécommunications.

[3]  Symeon Papavassiliou,et al.  An analytical framework for the design and performance evaluation of realistic Aloha-CDMA systems , 2004, IEEE Transactions on Wireless Communications.

[4]  Subrata Banerjee,et al.  Network-assisted diversity for random access wireless networks , 2000, IEEE Trans. Signal Process..

[5]  Dario Pompili,et al.  A CDMA-based Medium Access Control for UnderWater Acoustic Sensor Networks , 2009, IEEE Transactions on Wireless Communications.

[6]  Xiaodong Wang,et al.  Large-system performance analysis of blind and group-blind multiuser receivers , 2002, IEEE Trans. Inf. Theory.

[7]  Behrouz Farhang-Boroujeny,et al.  Enhancing the Performance of Random Access Networks with Random Packet CDMA and Joint Detection , 2008, EURASIP J. Adv. Signal Process..

[8]  David Tse,et al.  Fundamentals of Wireless Communication , 2005 .

[9]  Yi Sun,et al.  Multiuser detection for packet-switched CDMA networks with retransmission diversity , 2004, IEEE Transactions on Signal Processing.

[10]  Giuseppe Caire,et al.  The throughput of some wireless multiaccess systems , 2002, IEEE Trans. Inf. Theory.

[11]  Jamie S. Evans,et al.  Large system performance of linear multiuser receivers in multipath fading channels , 2000, IEEE Trans. Inf. Theory.

[12]  Yi Sun,et al.  Retransmission Diversity in Large CDMA Random Access Systems , 2007, IEEE Transactions on Signal Processing.

[13]  James L. Massey,et al.  The collision channel without feedback , 1985, IEEE Trans. Inf. Theory.

[14]  Lang Tong,et al.  Multipacket reception in random access wireless networks: from signal processing to optimal medium access control , 2001, IEEE Commun. Mag..

[15]  David Tse,et al.  Linear Multiuser Receivers: Effective Interference, Effective Bandwidth and User Capacity , 1999, IEEE Trans. Inf. Theory.

[16]  Dipankar Raychaudhuri,et al.  Performance Analysis of Random Access Packet-Switched Code Division Multiple Access Systems , 1981, IEEE Trans. Commun..

[17]  Venkat Anantharam The stability region of the finite-user slotted ALOHA protocol , 1991, IEEE Trans. Inf. Theory.

[18]  Ali N. Akansu,et al.  Performance of CDMA random access systems with packet combining in fading channels , 2003, IEEE Trans. Wirel. Commun..

[19]  Shlomo Shamai,et al.  The impact of frequency-flat fading on the spectral efficiency of CDMA , 2001, IEEE Trans. Inf. Theory.

[20]  Yi Sun Spectral Efficiency and Optimal Medium Access Control of Random Access Systems over Large Random Spreading CDMA , 2009, IEEE Transactions on Communications.

[21]  Shlomo Shamai,et al.  Spectral Efficiency of CDMA with Random Spreading , 1999, IEEE Trans. Inf. Theory.