Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques
In ITU-T standards, auxiliary management and control channels (AMCCs), as defined, facilitate the rapid deployment and efficient management of wavelength division multiplexing passive optical network (WDM-PON) systems. The super-imposition of an AMCC introduces additional interference to a PON signa...
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MDPI AG
2024-02-01
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Online Access: | https://www.mdpi.com/2304-6732/11/3/227 |
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author | Haipeng Guo Chuanchuan Yang Zhangyuan Chen Hongbin Li |
author_facet | Haipeng Guo Chuanchuan Yang Zhangyuan Chen Hongbin Li |
author_sort | Haipeng Guo |
collection | DOAJ |
description | In ITU-T standards, auxiliary management and control channels (AMCCs), as defined, facilitate the rapid deployment and efficient management of wavelength division multiplexing passive optical network (WDM-PON) systems. The super-imposition of an AMCC introduces additional interference to a PON signal, resulting in the degradation of the performance of the overall transmission. In prior research, we proposed employing a Gaussian mixture model (GMM) to fit a baseband-modulated AMCC signal. Following the analysis of the interference model and the distribution characteristics of received signal errors, we propose a combined optimization method for a transmitter and receiver in this paper. This method, grounded in probabilistic shaping (PS) techniques, optimizes the probability distribution of the transmitted signal based on the AMCC interference model, with the objective of reducing the error rate in PON signal transmission. We have validated this approach within a 50G-PON experimental system by utilizing PAM4 modulation. The experimental results demonstrate the effectiveness of this method for mitigating the impact of baseband-modulated AMCC, thereby reducing the error rate in PON signal transmission. The approach presented in this paper can further minimize the performance degradation introduced by baseband-modulated AMCC in WDM-PON systems, enhancing the efficiency of WDM-PON deployment. |
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issn | 2304-6732 |
language | English |
last_indexed | 2024-04-24T17:54:47Z |
publishDate | 2024-02-01 |
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series | Photonics |
spelling | doaj.art-2e2dec1baa594cf4809205e2313038ba2024-03-27T14:00:06ZengMDPI AGPhotonics2304-67322024-02-0111322710.3390/photonics11030227Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping TechniquesHaipeng Guo0Chuanchuan Yang1Zhangyuan Chen2Hongbin Li3State Key Laboratory of Advanced Optical Communication Systems and Networks, Peking University, Beijing 100871, ChinaState Key Laboratory of Advanced Optical Communication Systems and Networks, Peking University, Beijing 100871, ChinaState Key Laboratory of Advanced Optical Communication Systems and Networks, Peking University, Beijing 100871, ChinaState Key Laboratory of Advanced Optical Communication Systems and Networks, Peking University, Beijing 100871, ChinaIn ITU-T standards, auxiliary management and control channels (AMCCs), as defined, facilitate the rapid deployment and efficient management of wavelength division multiplexing passive optical network (WDM-PON) systems. The super-imposition of an AMCC introduces additional interference to a PON signal, resulting in the degradation of the performance of the overall transmission. In prior research, we proposed employing a Gaussian mixture model (GMM) to fit a baseband-modulated AMCC signal. Following the analysis of the interference model and the distribution characteristics of received signal errors, we propose a combined optimization method for a transmitter and receiver in this paper. This method, grounded in probabilistic shaping (PS) techniques, optimizes the probability distribution of the transmitted signal based on the AMCC interference model, with the objective of reducing the error rate in PON signal transmission. We have validated this approach within a 50G-PON experimental system by utilizing PAM4 modulation. The experimental results demonstrate the effectiveness of this method for mitigating the impact of baseband-modulated AMCC, thereby reducing the error rate in PON signal transmission. The approach presented in this paper can further minimize the performance degradation introduced by baseband-modulated AMCC in WDM-PON systems, enhancing the efficiency of WDM-PON deployment.https://www.mdpi.com/2304-6732/11/3/227AMCCWDM-PONGMMinterference modelprobabilistic shaping |
spellingShingle | Haipeng Guo Chuanchuan Yang Zhangyuan Chen Hongbin Li Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques Photonics AMCC WDM-PON GMM interference model probabilistic shaping |
title | Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques |
title_full | Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques |
title_fullStr | Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques |
title_full_unstemmed | Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques |
title_short | Enhanced PON and AMCC Joint Transmission with GMM-Based Probability Shaping Techniques |
title_sort | enhanced pon and amcc joint transmission with gmm based probability shaping techniques |
topic | AMCC WDM-PON GMM interference model probabilistic shaping |
url | https://www.mdpi.com/2304-6732/11/3/227 |
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