Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system
Abstract This article deals with peak to average power (PAPR) reduction in a single and multi‐user orthogonal chirp division multiplexing (OCDM) context. Two methods for PAPR reduction based on the selection of the frequency variation (up or down) of the chirps are first presented in a single user s...
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Wiley
2023-05-01
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| Series: | IET Signal Processing |
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| Online Access: | https://doi.org/10.1049/sil2.12215 |
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| author | Vincent Savaux |
| author_facet | Vincent Savaux |
| author_sort | Vincent Savaux |
| collection | DOAJ |
| description | Abstract This article deals with peak to average power (PAPR) reduction in a single and multi‐user orthogonal chirp division multiplexing (OCDM) context. Two methods for PAPR reduction based on the selection of the frequency variation (up or down) of the chirps are first presented in a single user system. The first technique consists in considering two OCDM signals generated with up and down chirps, respectively, and selecting the one offering lowest PAPR. The second PAPR reduction method is based on usual clipping, and in that case the chirp selection aims to reduce the clipping noise. An adapted receiver is presented, based on the maximum likelihood estimation of the frequency variation (up or down) of the chirp. Then, a general procedure for multi‐user OCDM transmission is introduced, where a sub‐band of the available bandwidth is dedicated to each user, whose frequency of the chirps varies within this sub‐band. Next, the PAPR reduction techniques are generalised to this multi‐user OCDM system. Moreover, a performance analysis of the first PAPR reduction method is developed, and it is shown through simulations that theoretical and numerical results match for both Nyquist rate and oversampled signals. It is also shown that the chirp selection reduces the clipping noise, and improves the bit error rate performance compared with clipping only. |
| format | Article |
| id | doaj-art-a5c9a4e4e1fc42e2bc7daa914bff9b03 |
| institution | DOAJ |
| issn | 1751-9675 1751-9683 |
| language | English |
| publishDate | 2023-05-01 |
| publisher | Wiley |
| record_format | Article |
| series | IET Signal Processing |
| spelling | doaj-art-a5c9a4e4e1fc42e2bc7daa914bff9b032025-08-20T03:19:59ZengWileyIET Signal Processing1751-96751751-96832023-05-01175n/an/a10.1049/sil2.12215Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing systemVincent Savaux0Institute of Research and Technology B‐Com Rennes FranceAbstract This article deals with peak to average power (PAPR) reduction in a single and multi‐user orthogonal chirp division multiplexing (OCDM) context. Two methods for PAPR reduction based on the selection of the frequency variation (up or down) of the chirps are first presented in a single user system. The first technique consists in considering two OCDM signals generated with up and down chirps, respectively, and selecting the one offering lowest PAPR. The second PAPR reduction method is based on usual clipping, and in that case the chirp selection aims to reduce the clipping noise. An adapted receiver is presented, based on the maximum likelihood estimation of the frequency variation (up or down) of the chirp. Then, a general procedure for multi‐user OCDM transmission is introduced, where a sub‐band of the available bandwidth is dedicated to each user, whose frequency of the chirps varies within this sub‐band. Next, the PAPR reduction techniques are generalised to this multi‐user OCDM system. Moreover, a performance analysis of the first PAPR reduction method is developed, and it is shown through simulations that theoretical and numerical results match for both Nyquist rate and oversampled signals. It is also shown that the chirp selection reduces the clipping noise, and improves the bit error rate performance compared with clipping only.https://doi.org/10.1049/sil2.122155G mobile communicationdigital communicationpower amplifiers |
| spellingShingle | Vincent Savaux Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system IET Signal Processing 5G mobile communication digital communication power amplifiers |
| title | Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system |
| title_full | Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system |
| title_fullStr | Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system |
| title_full_unstemmed | Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system |
| title_short | Peak to average power ratio reduction techniques based on chirp selection for single and multi‐user orthogonal chirp division multiplexing system |
| title_sort | peak to average power ratio reduction techniques based on chirp selection for single and multi user orthogonal chirp division multiplexing system |
| topic | 5G mobile communication digital communication power amplifiers |
| url | https://doi.org/10.1049/sil2.12215 |
| work_keys_str_mv | AT vincentsavaux peaktoaveragepowerratioreductiontechniquesbasedonchirpselectionforsingleandmultiuserorthogonalchirpdivisionmultiplexingsystem |