Probabilistic Constellation Shaping for Molecular communications
Probabilistic Constellation Shaping for Molecular communications
Molecular communication (MC) is an emerging field aiming at realizing information exchange via chemical signals between nanomachines in nanonetworks. Information transmission that is energy-efficient and relies on relatively low-complexity transceiver techniques is of practical importance for MC systems. Based on the fact that constellation shaping can improve energy efficiency, in this paper, we propose a molecular shell mapping (MSM) scheme to implement the probabilistic constellation shaping for MC. The MSM method is designed to exploit the concentration sequences with the lowest sum sequence weight, which results in an energy-efficient signal constellation. Furthermore, we propose an algorithm for selecting and sorting the concentration sequences to mitigate inter-symbol interference. For information detection, we design a genie-aided maximum-likelihood (ML) detector and a realistic ML detector to leverage the constructive effect of intra-sequence interference, as well as derive their bit error rates and achievable rates. Additionally, for the applications using large blocklength sequences, a low-complexity ML detection method is proposed. Numerical simulation results confirm that the shaped signaling using the MSM method is more energy-efficient than the conventional equiprobable signaling, achieving shaping gains of up to 1.5 dB at an ultra-short blocklength of 4.
concentration shift keying, inter-symbol interference, Molecular communication, probabilistic constellation shaping
5124-5136
Tang, Yuankun
0fb50137-5cc3-4bd4-80f9-bc6d02b8ee6c
Ji, Fei
354c2337-6b33-4713-85f6-df57bf3b9c7e
Wen, Miaowen
bc059b46-23e5-49d7-a333-cd5cb404e9d7
Wang, Qianqian
a268e9d0-6529-4cf1-aedf-e64c07ee752f
Chae, Chan-Byoung
90d9c9fb-2f07-476d-86a4-b8c6e45fe5c1
Yang, Lie-Liang
ae425648-d9a3-4b7d-8abd-b3cfea375bc7
1 September 2023
Tang, Yuankun
0fb50137-5cc3-4bd4-80f9-bc6d02b8ee6c
Ji, Fei
354c2337-6b33-4713-85f6-df57bf3b9c7e
Wen, Miaowen
bc059b46-23e5-49d7-a333-cd5cb404e9d7
Wang, Qianqian
a268e9d0-6529-4cf1-aedf-e64c07ee752f
Chae, Chan-Byoung
90d9c9fb-2f07-476d-86a4-b8c6e45fe5c1
Yang, Lie-Liang
ae425648-d9a3-4b7d-8abd-b3cfea375bc7
Tang, Yuankun, Ji, Fei, Wen, Miaowen, Wang, Qianqian, Chae, Chan-Byoung and Yang, Lie-Liang
(2023)
Probabilistic Constellation Shaping for Molecular communications.
IEEE Transactions on Communications, 71 (9), .
(doi:10.1109/TCOMM.2023.3285772).
Abstract
Molecular communication (MC) is an emerging field aiming at realizing information exchange via chemical signals between nanomachines in nanonetworks. Information transmission that is energy-efficient and relies on relatively low-complexity transceiver techniques is of practical importance for MC systems. Based on the fact that constellation shaping can improve energy efficiency, in this paper, we propose a molecular shell mapping (MSM) scheme to implement the probabilistic constellation shaping for MC. The MSM method is designed to exploit the concentration sequences with the lowest sum sequence weight, which results in an energy-efficient signal constellation. Furthermore, we propose an algorithm for selecting and sorting the concentration sequences to mitigate inter-symbol interference. For information detection, we design a genie-aided maximum-likelihood (ML) detector and a realistic ML detector to leverage the constructive effect of intra-sequence interference, as well as derive their bit error rates and achievable rates. Additionally, for the applications using large blocklength sequences, a low-complexity ML detection method is proposed. Numerical simulation results confirm that the shaped signaling using the MSM method is more energy-efficient than the conventional equiprobable signaling, achieving shaping gains of up to 1.5 dB at an ultra-short blocklength of 4.
Text
PCS_final_submission
- Accepted Manuscript
More information
e-pub ahead of print date: 13 June 2023
Published date: 1 September 2023
Additional Information:
This work was supported in part by the Guangdong Basic and Applied Basic Research Foundation under Grant 2021B1515120067, in part by the open funding of Guangdong Provincial Key Laboratory of Short-Range Wireless Detection and Communication, in part by the National Research Foundation
of Korea (NRF) grant through the MSIT, Korea Government (RS-2023-00208922, 2022R1A5A1027646), and in part by the Engineering and Physical Sciences Research Council (EPSRC) under the project EP/X01228X/1.
Keywords:
concentration shift keying, inter-symbol interference, Molecular communication, probabilistic constellation shaping
Identifiers
Local EPrints ID: 481470
URI: http://eprints.soton.ac.uk/id/eprint/481470
ISSN: 0090-6778
PURE UUID: 92686f6c-2665-40b5-9006-de225a15cbe2
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Date deposited: 29 Aug 2023 17:10
Last modified: 18 Mar 2024 02:49
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Contributors
Author:
Yuankun Tang
Author:
Fei Ji
Author:
Miaowen Wen
Author:
Qianqian Wang
Author:
Chan-Byoung Chae
Author:
Lie-Liang Yang
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