论文信息 - Retransmissions versus FEC plus interleaving for real-time applications: a comparison between CDPA and MC-TDMA cellular systems

Retransmissions versus FEC plus interleaving for real-time applications: a comparison between CDPA and MC-TDMA cellular systems

The capacity of mobile cellular systems is mainly limited by cochannel interference. Commonly in multiple carrier-time division multiple access (MC-TDMA) systems, like the global system for mobile (GSM) communications, the interference noise is first reduced by means of channel clustering and slow frequency hopping. The residual interference, characterized by a level varying slot by slot, causes errors in burst which are spread with bit interleaving and fought with correcting codes for random errors. With real-time services like voice, no other error control technique, such as automatic repeat request (ARQ), is usually adopted. An alternative approach is given by capture division packet access (CDPA) where transmissions are spread in time adopting a dynamic slot assignment (DSA), and errors are dealt with a retransmission mechanism. In this paper, we present a comparison of this two approaches, and using a simple theoretic capacity analysis, we justify the better performance of CDPA. Moreover, by the delay performance analysis, we prove that in spite of its retransmission mechanism, CDPA is effective also with delay constrained services.

[1] Flaminio Borgonovo,et al. Capture-Division Packetized Access (CDPA) for Wireless Personal Communications , 1996 .

[2] Flaminio Borgonovo,et al. C-PRMA: The centralized packet reservation multiple access for local wireless communications , 1994 .

[3] J. Bibb Cain,et al. Error-Correction Coding for Digital Communications , 1981 .

[4] Vittorio Trecordi,et al. Capture-division packet access for wireless personal communications , 1996, IEEE J. Sel. Areas Commun..

[5] V. H. Mac Donald,et al. Advanced mobile phone service: The cellular concept , 1979, The Bell System Technical Journal.

[6] Wayne E. Stark,et al. Channels with block interference , 1984, IEEE Trans. Inf. Theory.

[7] Flaminio Borgonovo,et al. Capture division packet access: a new cellular access architecture for future PCNs , 1996 .

[8] Jr. G. Forney,et al. Burst-Correcting Codes for the Classic Bursty Channel , 1971 .

[9] L. Fratta,et al. C-PRMA: The centralized packet reservation multiple access for local wireless communications , 1994, 1994 IEEE GLOBECOM. Communications: The Global Bridge.

[10] L. B. Milstein,et al. Spread spectrum for mobile communications , 1991 .