Title :
Physical layer evolution for GSM/EDGE
Author :
Arslan, Huseyin ; Cheng, Jung-Fu ; Balachandran, Kumar
Author_Institution :
Ericsson Res., Research Triangle Park, NC, USA
fDate :
6/23/1905 12:00:00 AM
Abstract :
EDGE has enabled the GSM network to offer third generation services as part of the UMTS core network. This is due to the introduction of 8PSK modulation and the recent specification of interfaces from the GERAN to the UMTS core network. This paper studies further improvements to the spectral efficiency and capacity of EDGE through the use of more sophisticated adaptive modulation schemes based on QAM, and the use of novel turbo coding schemes. Furthermore, this work considers a novel transmit diversity scheme adapted for use in dispersive channels. We provide performance results for the enhanced system showing tremendous gains. We also use theoretical predictions of outage analysis to predict the gain in performance obtained by the use of higher order modulations and transmit diversity. The gains from theoretical predictions match our simulations almost exactly
Keywords :
adaptive modulation; cellular radio; channel capacity; channel coding; data communication; dispersive channels; diversity reception; quadrature amplitude modulation; sequential estimation; turbo codes; DFSE; EDGE; Enhanced Data rates for Global Evolution; GERAN; GSM; QAM; UMTS core network; adaptive modulation; capacity; cutoff rates; decision feedback sequence estimator; dispersive channels; higher order modulations; outage analysis; performance; space-time codes; spectral efficiency; third generation services; transmit diversity; turbo coding; 3G mobile communication; Dispersion; GSM; Modulation coding; Performance analysis; Performance gain; Physical layer; Predictive models; Quadrature amplitude modulation; Turbo codes;
Conference_Titel :
Global Telecommunications Conference, 2001. GLOBECOM '01. IEEE
Print_ISBN :
0-7803-7206-9
DOI :
10.1109/GLOCOM.2001.965987
