Optimized design of the light source for an indoor visible light communication system based on an improved bat algorithm

Huang, Li; Wang, Ping; Wang, Jingyu; Chi, Sihui; Niu, Shuqiang; Nan, Xi; Che, Hui

doi:10.1364/ao.401990

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适应度函数的设计1

Introduction1

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2021

2023

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Cited by 11 publications

(2 citation statements)

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“…Update whale individual position according to Eq. ( 24) 5) Update whale individual position according to Eq. ( 24)…”

Section: 适应度函数的设计mentioning

confidence: 99%

基于可见光通信的led布局与功率分配的同步优化

Chen Yong,

Hu Chenyi,

Liu Huanlin

et al. 2023

光学学报

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“…Update whale individual position according to Eq. ( 24) 5) Update whale individual position according to Eq. ( 24)…”

Section: 适应度函数的设计mentioning

confidence: 99%

基于可见光通信的led布局与功率分配的同步优化

Chen Yong,

Hu Chenyi,

Liu Huanlin

et al. 2023

光学学报

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“…In [19], an improved artificial fish swarm algorithm was proposed for adjusting the horizontal layout of the LED array. To improve the coverage characteristics, the half-power angle and horizontal layout were optimized by an improved BAT algorithm in [20], which can effectively reduce the illumination fluctuation with different LED arrays.…”

Section: Introductionmentioning

confidence: 99%

Coverage Enhancement of Light-Emitting Diode Array in Underwater Internet of Things over Optical Channels

Liu,

Yao,

Zhao

et al. 2023

Electronics

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The construction of the underwater Internet of Things (UIoT) is crucial to marine resource development, environmental observation, and tactical surveillance. The underwater optical wireless communication (UOWC) system with its large bandwidth and wide coverage facilitates the high-capacity information interconnection within the UIoT networks over short and medium ranges. To enhance the coverage characteristics of the UOWC system, an optimized lemniscate-compensated layout of light-emitting diode (LED) array is proposed in this paper, which can ameliorate the received optical power and reliability at the receiving terminal. Compared with traditional circular and rectangular layouts, the received optical power and bit error rate (BER) performance of the proposed system are analyzed based on the Monte Carlo simulation method. The analysis results show that the proposed LED array achieves a smaller peak power deviation and mean square error of the received optical power under three typical seawater environments. Furthermore, the proposed LED-array scheme supports a better BER performance of the UOWC system. For example, in turbid seawater with a transmission depth of 9.5 m, the BER of the proposed LED array layout is 1 × 10−7, which is better than the BER of 3.5 × 10−6 and 1 × 10−4 under the other two traditional light source layouts.

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