Efficient Time/Frequency Permutation of MIMO-OFDM Systems through Independent and Correlated Nakagami Fading Channels

Space-Time Frequency (STF) codes for MIMO-OFDM over block-fading channel can achieve rate M( t) and full-diversity M( t) M( r) M( b) L which is the product of the number of transmit antennas M( t), receive antennas M( r), fading blocks M( b) and channel taps L. In this article, time permutation is proposed to provide independent block-fading over Jake's Doppler power spectrum channel. Moreover, we show the performance variations of STF code as channel delay spread changes. Therefore, we introduce a frequency/time permutation technique in order to remove the frequency correlation among sub-carriers, which subsequently increases the coding gain and achieves maximum diversity. Finally, the symbol error rate (SER) performance of the proposed time/frequency permuted STF codes over independent and correlated MIMO antenna branches under Nakagami fading channel is simulated. We show that the proposed systems provide better performance and more robust to large values of antennas correlation coefficients in comparison with the un-interleaved one.