Proceedings ArticleDOI
Spectrum efficient cellular mobile communications
R.W. Nettleton
- Vol. 33, pp 286-292
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TLDR
It is shown that the CDMA (spread spectrum) bounds are uniformly higher than the channel reuse bounds, and that the potential improvement using spread spectrum is much greater than that of the channel-reuse scheme.Abstract:
The problem of spectrally efficient communication in a cellular mobile radio system is discussed. Information-theoretical bounds are derived for the spectral efficiency of cellular systems using the channel-reuse method, where each user has a distinct channel that is also reused elsewhere in the system; and for the code-division multiple-access system, where all users use the same spectrum simultaneously and signature sequences are used to distinguish them. It is shown that the CDMA (spread spectrum) bounds are uniformly higher than the channel reuse bounds. Results for practical signalling techniques are compared with the bounds, showing that a real potential for improvement exists using either scheme, but that the potential improvement using spread spectrum is much greater.read more
References
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Journal ArticleDOI
Introduction to spread-spectrum antimultipath techniques and their application to urban digital radio
TL;DR: Results of analyses and simulations of various candidate receivers indicated by the theory, as they perform through urban/suburban multipath show that megabit-per-second rates through urban multipath are quite feasible.
Journal ArticleDOI
A spread-spectrum technique for high-capacity mobile communications
George R. Cooper,R.W. Nettleton +1 more
TL;DR: The spectral efficiency of the spread-spectrum scheme may exceed those of the narrow-band schemes by a factor of almost five, and more ambitious bit-rate-reducing speech digitization methods could improve still further on these figures.
Journal Article
Speech Coding
TL;DR: The performance of a one-bit digital matched i t e r (DMF) responding to binary signaling through a noisy multipath channel is analyzed and the output signal-to-noise ratio (SNR,) plays a key role in the analysis.
Proceedings ArticleDOI
Power control for a spread spectrum cellular mobile radio system
R.W. Nettleton,Hossein Alavi +1 more
TL;DR: This work shows that using simple algebra it can equalize the signal-to-interference ratio for each mobile in a given cell in both links and thereby increase the capacity by 30 to 100% compared with a system with no power control.