Journal ArticleDOI
Adaptation techniques in wireless packet data services
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TLDR
Data rate adaptation procedures for CDMA (IS-95), widebandCDMA (cdma2000 and UMTS WCDMA), TDMA (is-136), and GSM (GPRS and EDGE) are described.Abstract:
Today's cellular systems are designed to achieve 90-95 percent coverage for voice users (i.e., the ratio of signal to interference plus noise must be above a design target over 90 to 95 percent of the cell area). This ensures that the desired data rate which achieves good voice quality can be provided "everywhere". As a result, SINRs that are much larger than the target are achieved over a large portion of the cellular coverage area. For a packet data service, the larger SINR can be used to provide higher data rates by reducing coding or spreading and/or increasing the constellation density. It is straight-forward to see that cellular spectral efficiency (in terms of b/s/Hz/sector) can be increased by a factor of two or more if users with better links are served at higher data rates. Procedures that exploit this are already in place for all the major cellular standards in the world. In this article, we describe data rate adaptation procedures for CDMA (IS-95), wideband CDMA (cdma2000 and UMTS WCDMA), TDMA (IS-136), and GSM (GPRS and EDGE).read more
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Variable-Rate Transmission for Rayleigh Fading Channels
TL;DR: A modulation system is proposed that continuously adjusts its data rate in response to signal strength variations in a fading channel, revealing a reduction on the order of 14 dB in transmitter power for a typical duplex link.
Journal ArticleDOI
Channel quality estimation and rate adaptation for cellular mobile radio
TL;DR: A technique to measure channel quality in terms of signal-to-interference plus noise ratio (SINR) for the transmission of signals over fading channels and proposes a set of coded modulation schemes which utilize the SINR estimate to adapt between modulations, thus improving the data throughput.