Antenna optical communication spectral enhancement with energy analysis of photovoltaic cell microgrid environmental application

Beemkumar N.; Sharma Sudhir Kr.; Sharma RahulPrasad SheetlaKumar DeepakMarimuthu JawaharGupta Poonam

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Antenna optical communication spectral enhancement with energy analysis of photovoltaic cell microgrid environmental application

机译：Antenna optical communication spectral enhancement with energy analysis of photovoltaic cell microgrid environmental application

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Abstract A technique for sending two separate optical vector signals on a single optical carrier with the same polarization state is suggested and experimentally verified. It is based on coherence detection and digital phase noise cancellation. It's obviously true that numerous remote transmissions having a similar transporter recurrence can't engender over a solitary optical fiber simultaneously, for example, MIMO (Multiple input multiple output) signals taking care of different receiving wires in fiber remote framework. The proposed spectral enhancement and energy efficiency network for an optical communication antenna is the goal of this study. Here the proposed model foster optical correspondence in view of receiving wire with m-ary spatial encoder long stretch lucidness. The micro grid photovoltaic cell module was then used to boost the network's energy. Backhaul, access, and aggregation network power consumptions are all covered in detail in this paper's discussion of the end-to-end power usage. The simulation analysis is carried out in terms of energy efficiency, power consumption, spectral efficiency, bit error rate, and average channel capacity. The communication-on-edge configuration's improvements in spectral efficiency and power consumption in comparison to the other competing configurations are quantified by a number of comparative simulation results. The proposed technique attained energy efficiency of 96%, Power consumption of 48%, Spectral efficiency of 93%, Bit error rate of 59%, Average channel capacity of 68%.

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来源
《Optical and Quantum Electronics》 |2023年第9期|共5页
作者
Beemkumar N.; Sharma Sudhir Kr.; Sharma RahulPrasad SheetlaKumar DeepakMarimuthu JawaharGupta Poonam;
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作者单位

JAIN (Deemed-to-be University);

Jaipur National University;

Teerthanker Mahaveer UniversityGalgotias UniversityIIMT UniversityMepco Schlenk Engineering CollegeSanskriti University;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类光学;
关键词
Optical communication; Spectral enhancement; Energy efficiency network; Haul coherence; Microgrid;

Antenna optical communication spectral enhancement with energy analysis of photovoltaic cell microgrid environmental application

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