P.D. Alexander scite author profile

Abstract. A code-division multiple-access system with channel coding may be viewed as a serially-concatenated coded system. In this paper we propose a low complexity method for decoding the resulting inner code (due to the spreading sequence), which allows iterative (turbo) decoding of the serially-concatenated code pair. The per-bit complexity of the proposed decoder increases only linearly with the number of users. Performance within a fraction of a dB of the single user bound for heavily loaded asynchronous CDMA is shown both by simulation and analytically.

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Iterative multiuser detection for CDMA with FEC: near-single-user performance

Reed

Schlegel

Alexander

et al. 1998

IEEE Trans. Commun.

276

106

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Cooperative Intelligent Transport Systems: 5.9-GHz Field Trials

Alexander¹,

Haley²,

Grant

2011

Proc. IEEE

180

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Random sequence multisets for synchronous code-division multiple-access channels

Grant

Alexander

1998

IEEE Trans. Inform. Theory

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The effect of using randomly selected sequence multisets for the uplink of a synchronous code-division multipleaccess channel is considered. A tight lower bound on the expected value of the sum capacity over the ensemble of randomly selected sequence multisets is given. For large systems, the sum rate penalty for using randomly selected multisets is shown to be at most 1 nat and to vanish as the number of users becomes large, compared to the sequence length.

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Iterative multiuser interference reduction: turbo CDMA

Alexander

Reed

Asenstorfer

et al. 1999

IEEE Trans. Commun.

155

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P.D. Alexander

Iterative detection in code‐division multiple‐access with error control coding

Iterative multiuser detection for CDMA with FEC: near-single-user performance

Cooperative Intelligent Transport Systems: 5.9-GHz Field Trials

Random sequence multisets for synchronous code-division multiple-access channels

Iterative multiuser interference reduction: turbo CDMA

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