Abstract
Generalized frequency division multiplexing (GFDM) is considered as a candidate waveform for 5G wireless communication systems. It is the generalize form of the orthogonal frequency division multiplexing (OFDM) that includes a number of subcarriers and subsymbols. An alternative waveform referred as the superimposed waveform in this study, was recently proposed to increase the data rate. The superimposed waveform is based on using orthogonal polynomial in each grid of time-frequency lattice structure. In this way, more than one symbols are transmitted with the different orthogonal pulses. While the proposed waveform showed promising results for the increasing data rate, there were some issues regarding the implementations. Motivated by this, we design transceiver structure as a low complex way with mathematical derivation by using inverse discrete Fourier transform (IDFT) and DFT operations. The bandwidth efficiency is almost 2.4 much higher than GFDM with Gaussian pulses. The performances of the superimposed waveform over a Rayleigh Fading channel and its comparison over additive white Gaussian noise (AWGN) channel are done.
Original language | English |
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Title of host publication | 2017 IEEE International Black Sea Conference on Communications and Networking, BlackSeaCom 2017 |
Publisher | Institute of Electrical and Electronics Engineers Inc. |
Pages | 1-5 |
Number of pages | 5 |
ISBN (Electronic) | 9781509050499 |
DOIs | |
Publication status | Published - 31 Jan 2018 |
Event | 2017 IEEE International Black Sea Conference on Communications and Networking, BlackSeaCom 2017 - Istanbul, Turkey Duration: 5 Jun 2017 → 8 Jun 2017 |
Publication series
Name | 2017 IEEE International Black Sea Conference on Communications and Networking, BlackSeaCom 2017 |
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Volume | 2018-January |
Conference
Conference | 2017 IEEE International Black Sea Conference on Communications and Networking, BlackSeaCom 2017 |
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Country/Territory | Turkey |
City | Istanbul |
Period | 5/06/17 → 8/06/17 |
Bibliographical note
Publisher Copyright:© 2017 IEEE.