Abstract :
As an accompany paper [1], efficient power allocation strategies for cooperative transmission applying decode-and- forward (DF) approach are further investigated in this paper. The cooperative ratio, defined as the ratio of the power used for cooperative-information transmission to the total power, is investigated in an attempt to minimize bit error rate (BER) with a constraint of fixed total transmit power for each user. Our results show that efficient power allocation greatly depends on the cooperative method. The preferred cooperative ratio changes from low to high by using DF with no parity check, amplify-and-forward, DF with parity check. Simulation results show that with appropriate power allocation, BER performance of all cooperative schemes can achieve a significant gain over non-cooperative systems.
Keywords :
Rayleigh channels; channel allocation; decoding; error statistics; BER; Rayleigh-fading channels; amplify-and-forward approach; bit error rate; cooperative-information transmission; decode-and-forward approach; power allocation; Binary phase shift keying; Bit error rate; Decoding; Fading; Parity check codes; Performance gain; Power engineering and energy; Power engineering computing; Rayleigh channels; Relays;
