Multiwavelet Computed Radon-Based Ofdm Trasceiver Designed and Symulation
Authors
Abbas Hasan Kattoush , Waleed Ameen Mahmoud, Atif Mashagbah and Ahed Ghodayyah
Abstract
Finite Radon Transform (FRAT) mapper computed in Fourier basis using fast Fourier transform
(FFT) algorithm has the ability to increase orthogonality of sub-carriers, it is non sensitive to channel
parameters variations, and has a small constellation energy compared with conventional FFT based
orthogonal frequency division multiplexing (OFDM). It is also able to work as a good interleaver which
significantly reduces the bit error rate (BER) performance of the OFDM system under severe channel
conditions. In this paper the idea is developed towards increasing the orthogonality and increasing spectral
efficiency of OFDM system structure. FRAT computed in discrete Multiwavelet transform (DMWT) basis is
implemented in OFDM systems and compared with FRAT OFDM computed in Fourier basis under different
channel conditions for different channels parameters values including multi-path gains vector, multi-path
delay time vector, and maximum Doppler shift. As a result, the proposed structure gives a significant
improvement in BER performance in Additive White Gaussian Noise (AWGN) channels, flat fading
channels (FFC), and multi-path selective fading channels (SFC).
