Title :
Maximizing diversity on block-fading channels
Author :
Knopp, R. ; Humblet, P.A.
Author_Institution :
Mobile Commun. Dept., Inst. Eurecom, France
Abstract :
This work considers the achievable diversity for coded systems appropriately characterized by a block-fading channel model. We are primarily interested in cases where the number of uncorrelated fading channel realizations (blocks) F, is small, so that ideal interleaving assumptions do not hold. This is usually the case in mobile radio systems which employ coded slow frequency-hopping such as the GSM system and its derivatives, We show that the diversity order is limited to a value less than or equal to F which depends on the code rate and the size of the signaling constellation. We report on the results of code searches for rate 1/n convolutional codes for simple AM constellations, which show the minimum complexity needed to achieve maximum diversity. We also present computer simulations of some codes in order to determine the effect of code complexity on the frame and bit error-rate performance
Keywords :
amplitude modulation; cellular radio; channel coding; convolutional codes; diversity reception; error statistics; fading; frequency hop communication; land mobile radio; telecommunication channels; AM constellation; GSM system; bit error-rate performance; block-fading channels; code complexity; code rate; coded slow frequency-hopping; computer simulations; diversity maximisation; frame error-rate performance; maximum diversity; mobile radio systems; rate 1/n convolutional codes; signaling constellation; uncorrelated fading channel realizations; Computer errors; Computer simulation; Constellation diagram; Convolutional codes; Fading; Frequency diversity; GSM; Interleaved codes; Land mobile radio; RF signals;
Conference_Titel :
Communications, 1997. ICC '97 Montreal, Towards the Knowledge Millennium. 1997 IEEE International Conference on
Conference_Location :
Montreal, Que.
Print_ISBN :
0-7803-3925-8
DOI :
10.1109/ICC.1997.609910
