In the 5th generation of wireless communications for multiple apps, such as sports, video etc, the large transmission rate of information is the main requirement. To satisfy the high information rates, bandwidth can be increased by using greater frequency bands that is not feasible owing to the restricted frequency spectrum accessibility and the limitation placed on accessible spectrums by Standard. A further way is to effectively use the existing spectrum. OFDM overrides all multiplexing methods in the last century because with Cyclic Prefix (CP) and enhanced Bit Error Rates (BER) the system improves inter-symbolic interference (ISI). It offers low sensitivity owing to the intercarrier orthogonality to time synchronization. Bandwidth is lost by CP, in addition to all of these benefits. The lack of orthogonality between pilots that interfere (ICI) is also due to the multipath fading. Discrete Wavelet Transform is used to extract a bandwidth and spectral efficiency improvement and remove CP in turn. Transforming Wavelet (WT) is less sensitive to multipath distortion., so that ICI improves.. We present FBMC's unifying structure, discussion and efficiency assessment in this paper.
CITATION STYLE
Gangadhar, C., & Habibulla, M. (2019). Spectral efficiency enhancement through wavelet transform filter bank for future mobile communications. International Journal of Innovative Technology and Exploring Engineering, 8(9 Special Issue 2), 828–829. https://doi.org/10.35940/ijitee.I1170.0789S219
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