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Differential detection of π/4-shifted-DQPSK for digital cellular radio

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2 Author(s)
S. Chennakeshu ; General Electric Co., Schenectady, NY, USA ; G. J. Saulnier

The detection of π/4-shifted-DQPSK modulation using a tangent-type differential detector with an integrated symbol timing and carrier frequency offset correction algorithm is discussed. π/4-shifted-DQPSK modulation has been proposed for use in a high-capacity, TDMA-based digital cellular system being developed in the US; differential detection could potentially allow the production of low-complexity mobile units. Results obtained using the proposed IS-54 TDMA frame structure for base to mobile transmissions are presented. Theoretical and simulation bit-error-rate (BER) results are presented for static and Rayleigh fading channels. BER results are provided as a function of Eb/N0 and C/I, where the interferer is a second π/4-shifted-DQPSK signal. Additional results are provided which show the BER sensitivity to Doppler frequency shifts, time delay spread, and carrier frequency offsets

Published in:

IEEE Transactions on Vehicular Technology  (Volume:42 ,  Issue: 1 )