Pre-chirp-domain index modulation for full-diversity affine frequency division multiplexing towards 6G
Pre-chirp-domain index modulation for full-diversity affine frequency division multiplexing towards 6G
As a superior multicarrier technique utilizing chirp signals for high-mobility communications, affine frequency division multiplexing (AFDM) is envisioned to be a promising candidate for sixth-generation (6G) wireless networks. AFDM is based on the discrete affine Fourier transform (DAFT) with two adjustable parameters of the chirp signals, termed the prechirp and post-chirp parameters, respectively. Whilst the postchirp parameter complies with stringent constraints to combat the time-frequency doubly selective channel fading, we show that the pre-chirp counterpart can be flexibly manipulated for an additional degree of freedom. Therefore, this paper proposes a novel AFDM scheme with the pre-chirp index modulation (PIM) philosophy (AFDM-PIM), which can implicitly convey extra information bits through dynamic pre-chirp parameter assignment, thus enhancing both spectral and energy efficiency. Specifically, we first demonstrate that the subcarrier orthogonality is still maintained by applying distinct pre-chirp parameters to various subcarriers in the AFDM modulation process. Inspired by this property, we allow each AFDM subcarrier to carry a unique pre-chirp signal according to the incoming bits. By such an arrangement, extra bits can be embedded into the index patterns of pre-chirp parameter assignment without additional energy consumption. We derive asymptotically tight upper bounds on the average bit error probability (BEP) of the proposed schemes with the maximum-likelihood detection, and validate that the proposed AFDM-PIM can achieve full diversity under doubly dispersive channels. Based on the derived result, we further propose an optimal pre-chirp alphabet design to enhance the bit error rate (BER) performance via intelligent optimization algorithms. Simulation results demonstrate that the proposed AFDM-PIM outperforms the classical benchmarks.
Liu, Guangyao
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Mao, Tianqi
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Xiao, Zhenyu
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Wen, Miaowen
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Liu, Ruiqi
dc396ef3-468b-4194-89a3-92aa87ae1c38
Zhao, Jingjing
beb02cf7-67a9-4637-9dba-6e0fbd508ac8
Basar, Ertugrul
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Wang, Zhaocheng
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Chen, Sheng
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Liu, Guangyao
6a66153d-fc27-49ee-b059-99f88e066f5d
Mao, Tianqi
a1962d30-42a2-4fb3-b30e-ab1b99d3e754
Xiao, Zhenyu
9d07400d-4297-458e-b75b-5595b1cdd2f8
Wen, Miaowen
bc059b46-23e5-49d7-a333-cd5cb404e9d7
Liu, Ruiqi
dc396ef3-468b-4194-89a3-92aa87ae1c38
Zhao, Jingjing
beb02cf7-67a9-4637-9dba-6e0fbd508ac8
Basar, Ertugrul
92514edb-d6b9-48bc-8e33-7d705e55605c
Wang, Zhaocheng
70339538-3970-4094-bcfc-1b5111dfd8b4
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Liu, Guangyao, Mao, Tianqi, Xiao, Zhenyu, Wen, Miaowen, Liu, Ruiqi, Zhao, Jingjing, Basar, Ertugrul, Wang, Zhaocheng and Chen, Sheng
(2025)
Pre-chirp-domain index modulation for full-diversity affine frequency division multiplexing towards 6G.
IEEE Transactions on Wireless Communications.
(doi:10.1109/TWC.2025.3559997).
Abstract
As a superior multicarrier technique utilizing chirp signals for high-mobility communications, affine frequency division multiplexing (AFDM) is envisioned to be a promising candidate for sixth-generation (6G) wireless networks. AFDM is based on the discrete affine Fourier transform (DAFT) with two adjustable parameters of the chirp signals, termed the prechirp and post-chirp parameters, respectively. Whilst the postchirp parameter complies with stringent constraints to combat the time-frequency doubly selective channel fading, we show that the pre-chirp counterpart can be flexibly manipulated for an additional degree of freedom. Therefore, this paper proposes a novel AFDM scheme with the pre-chirp index modulation (PIM) philosophy (AFDM-PIM), which can implicitly convey extra information bits through dynamic pre-chirp parameter assignment, thus enhancing both spectral and energy efficiency. Specifically, we first demonstrate that the subcarrier orthogonality is still maintained by applying distinct pre-chirp parameters to various subcarriers in the AFDM modulation process. Inspired by this property, we allow each AFDM subcarrier to carry a unique pre-chirp signal according to the incoming bits. By such an arrangement, extra bits can be embedded into the index patterns of pre-chirp parameter assignment without additional energy consumption. We derive asymptotically tight upper bounds on the average bit error probability (BEP) of the proposed schemes with the maximum-likelihood detection, and validate that the proposed AFDM-PIM can achieve full diversity under doubly dispersive channels. Based on the derived result, we further propose an optimal pre-chirp alphabet design to enhance the bit error rate (BER) performance via intelligent optimization algorithms. Simulation results demonstrate that the proposed AFDM-PIM outperforms the classical benchmarks.
Text
AFDM-Journal-F
- Accepted Manuscript
More information
Accepted/In Press date: 4 April 2025
e-pub ahead of print date: 23 April 2025
Identifiers
Local EPrints ID: 501030
URI: http://eprints.soton.ac.uk/id/eprint/501030
ISSN: 1536-1276
PURE UUID: 3f21aa7a-b641-4ccf-bd00-9d4fbcb9c13c
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Date deposited: 20 May 2025 17:21
Last modified: 20 May 2025 17:21
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Contributors
Author:
Guangyao Liu
Author:
Tianqi Mao
Author:
Zhenyu Xiao
Author:
Miaowen Wen
Author:
Ruiqi Liu
Author:
Jingjing Zhao
Author:
Ertugrul Basar
Author:
Zhaocheng Wang
Author:
Sheng Chen
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