CDMA overlay situations for microcellular mobile communications

Direct sequence code division multiple access communications is a promising approach to cellular mobile communications, which operates in an environment characterized by multipath Rician fading. In this paper, the CDMA network is assumed to share common spectrum with a narrowband microwave user. Because of the presence of the narrowband waveform, an interference suppression filter at each CDMA receiver is employed to reject the narrowband interference. The problem of interference from adjacent cells is also considered. Average power control is assumed to combat the near/far problem, and multipath diversity, in conjunction with simple interleaved channel coding, is considered for improving the performance of the CDMA system. >

[1]  Theodore S. Rappaport,et al.  Performance Evaluation for Cellular CDMA , 1992, IEEE J. Sel. Areas Commun..

[2]  E.R. Berlekamp,et al.  The technology of error-correcting codes , 1980, Proceedings of the IEEE.

[3]  Laurence B. Milstein,et al.  DS-CDMA with predetection diversity for indoor radio communications , 1994, IEEE Trans. Commun..

[4]  James S. Lehnert,et al.  Bit-to-bit error dependence in slotted DS/SSMA packet systems with random signature sequences , 1989, IEEE Trans. Commun..

[5]  Laurence B. Milstein,et al.  Effects of path loss and fringe user distribution on CDMA cellular frequency reuse efficiency , 1990, [Proceedings] GLOBECOM '90: IEEE Global Telecommunications Conference and Exhibition.

[6]  L. B. Milstein,et al.  Interference rejection techniques in spread spectrum communications , 1988, Proc. IEEE.

[7]  M. Pursley,et al.  Performance Evaluation for Phase-Coded Spread-Spectrum Multiple-Access Communication - Part I: System Analysis , 1977, IEEE Transactions on Communications.

[8]  George R. Cooper,et al.  A spread-spectrum technique for high-capacity mobile communications , 1978 .

[9]  L. B. Milstein,et al.  CDMA for personal communications networks , 1990, IEEE Conference on Military Communications.

[10]  M.B. Pursley The role of spread spectrum in packet radio networks , 1987, Proceedings of the IEEE.

[11]  M. Lecours,et al.  The effect of delay spread on a FH-FSK spread spectrum mobile radio system over frequency-selective fading channels , 1994, IEEE Trans. Commun..

[12]  Robert J. C. Bultitude,et al.  Propagation characteristics on microcellular urban mobile radio channels at 910 MHz , 1989, IEEE J. Sel. Areas Commun..

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

[14]  Michael B. Pursley,et al.  Error Probabilities for Binary Direct-Sequence Spread-Spectrum Communications with Random Signature Sequences , 1987, IEEE Trans. Commun..