Variation of the number of receive antenna in performance of the probability of error.

Contexts in source publication

Context 1

... increasing level of SNR also improves the probability of error. Higher SNR value indicates a good wireless channel condition. At specific 5 bits, the channel quality with SNR 3 dB creates 2.24 10 -3 probability of error while SNR 8 dB generates 9.5 10 -4 probability of error and the last, SNR 14 dB yields 1.54 10 -4 probability of error. Based on Fig. 4 below, we can see the performance of the probability of error versus SNR with a variation of the number of receive antenna at the receiver. Fig. 4 consists of four graphs, each graph illustrates a different number of the antenna at the receiver. The more number of receive antenna gives a better probability of error performance. At the ...

Context 2

... channel quality with SNR 3 dB creates 2.24 10 -3 probability of error while SNR 8 dB generates 9.5 10 -4 probability of error and the last, SNR 14 dB yields 1.54 10 -4 probability of error. Based on Fig. 4 below, we can see the performance of the probability of error versus SNR with a variation of the number of receive antenna at the receiver. Fig. 4 consists of four graphs, each graph illustrates a different number of the antenna at the receiver. The more number of receive antenna gives a better probability of error performance. At the specific BER 10 -3 , four receive antennas need about 18 dB of SNR while one receive antenna requires about 24 dB of SNR. There is about 6 dB ...

Context 3

... increasing level of SNR also improves the probability of error. Higher SNR value indicates a good wireless channel condition. At specific 5 bits, the channel quality with SNR 3 dB creates 2.24 10 -3 probability of error while SNR 8 dB generates 9.5 10 -4 probability of error and the last, SNR 14 dB yields 1.54 10 -4 probability of error. Based on Fig. 4 below, we can see the performance of the probability of error versus SNR with a variation of the number of receive antenna at the receiver. Fig. 4 consists of four graphs, each graph illustrates a different number of the antenna at the receiver. The more number of receive antenna gives a better probability of error performance. At the ...

Context 4

... channel quality with SNR 3 dB creates 2.24 10 -3 probability of error while SNR 8 dB generates 9.5 10 -4 probability of error and the last, SNR 14 dB yields 1.54 10 -4 probability of error. Based on Fig. 4 below, we can see the performance of the probability of error versus SNR with a variation of the number of receive antenna at the receiver. Fig. 4 consists of four graphs, each graph illustrates a different number of the antenna at the receiver. The more number of receive antenna gives a better probability of error performance. At the specific BER 10 -3 , four receive antennas need about 18 dB of SNR while one receive antenna requires about 24 dB of SNR. There is about 6 dB ...