Underwater Laser Communication Using an OFDM-Modulated 520-nm Laser Diode

Xu, Jing; Lin, Aobo; Yu, Xiangyu; Song, Yuhang; Kong, Meiwei; Qu, Fengzhong; Han, Jun; Jia, Wei; Deng, Ning

doi:10.1109/lpt.2016.2582542

Cited by 63 publications

(13 citation statements)

References 19 publications

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“…Ro-FSO has widely spread because of the increased demand to have a wireless bandwidth [12]. Ro-FSO technology was studied due to many features like low attenuation losses, low power exhaustion, and high bandwidth for RF distribution [13]. Design and simulation of Ro-FSO wireless communication system offer an excessive sensitivity of atmosphere medium which causing fading in the received signal due to attenuation particles like (fog, rain, haze, snow, and smoke) that conflict with propagation beam leading to scattering and absorption that produce decreasing of received power.…”

Section: Literature Reviewmentioning

confidence: 99%

Study and Simulation of Transporting Radio Frequency Signals over Free Space Optics for Achieving High Data Rate and Power Saving

Ibrahim

Mansour

2021

Int. J. Interact. Mob. Technol.

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The remarkable technology for seamless integration of wireless and optical networks is radio frequency signals over Free Space Optics (FSO). This research study and simulation examine the design and evaluation performance of Radio Frequency over FSO (RF-FSO) wireless communication technology. These systems are implemented through medium communication link ranges to overcome excessive sensitivity of atmosphere medium and meet the requirements of a wide variety of optical wireless applications. There are two ways to achieve the application of the design mentioned above. The first way is the application of the Three modulation schemes of technology that is Amplitude shift keying (ASK), Quadrature amplitude modulation (QAM), and Quadrature phase-shift keying (QPSK) of digital modulation. The design of these modulation schemes is realized by using optiwave software to study the transmission of RF signals over the FSO channel and compare the three modulation techniques into the RF-FSO system. RF signals with the frequency range from (20 to 60) GHz is used in RF-FSO system and many carrier optical signals where the higher RF has a wider bandwidth to carrying larger information. To increase the transmission of data rates Wavelength Division Multiplexing (WDM) technology is used. The second way is based on a mathematical model which has been proposed for this study. This mathematical model calculates optimal beacon period (BI), and optimal listen interval (LI) to preventing the overlapping of time between the signals and the decrease in the required power. Using different weather conditions samples, the simulation results revealed that the best performance of the RF-FSO system is from link range, and the receiver is more sensitive. The simulation results are as follows: Two independent channels are transmitted 20 Gbps over ranges from (263 m to 6.55 km), while four channels are transmitted 40 Gbps over ranges from (257 m to 5.95 km), and eight independent channels transmit 80 Gbps over distance from (203 m to 5.2 km)

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Section: Literature Reviewmentioning

confidence: 99%

Study and Simulation of Transporting Radio Frequency Signals over Free Space Optics for Achieving High Data Rate and Power Saving

Ibrahim

Mansour

2021

Int. J. Interact. Mob. Technol.

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“…VLC satisfies the growing demand for wireless data communication. Therefore, it has been proposed to be used in vehicle-to-vehicle communication [5], indoor communication [6], wireless local area networks, wireless personal area networks, and underwater wireless optical communication (UWOC) [7,8]. The possible application scenario of VLC is shown in Figure 1.…”

Section: Introduction 11 Visible Light Communication (Vlc)mentioning

confidence: 99%

Blue Laser Diode-Based Visible Light Communication and Solid-State Lighting

Ali¹,

Li²,

Fu³

et al. 2022

Antenna Systems

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In this chapter, we review our recent work on blue laser diode-based visible light communication and solid-state lighting. Gallium nitride (GaN) phosphor-converted white light-emitting diodes (Pc-WLEDs) are emerging as an indispensable solid-state lighting (SSL) source for next-generation display system and the lighting industry. Together with the function of lighting, visible light communication (VLC) using Pc-WLEDs has gained increasing attention to fulfill the growing demand for wireless data communication. Practically, the low modulation response and low emitting intensity of light-emitting diodes (LED) are the drawbacks for the development of ultrahigh-speed VLC and high-quality SSL system. Blue GaN laser diode (LD) and remote phosphor-based white light can be used for both high-speed VLC and SSL simultaneously. We demonstrated a color-rendering index (CRI) of 93.8, a correlated color temperature (CCT) of 4435 K, and a data rate of 1.6 Gbps under NRZ-OOK modulation by an exciting blue laser diode on narrowband green−/red-emitting composite phosphor film. This work opens up exciting possibilities for future high-speed indoor VLC and high-quality SSL.

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“…Recently, underwater wireless laser communication systems with higher data rates were achieved by employing complex modulation schemes, such as orthogonal frequency-division multiplexing (OFDM) including quadrature amplitude modulation (QAM). [19][20][21][22] Nakamura et al 23 have demonstrated optical wireless transmission of 405 nm, 1.45 Gbps optical intensity modulation/direct detection (IM/DD) OFDM signals through a 4.8-m underwater channel. The underwater wireless optical communication by Wu et al 24 provided a maximal allowable communication bit rate increase from 5.2 to 12.4 Gbps with the corresponding underwater transmission distance significantly reduced from 10.2 to 1.7 m. In communication techniques, the increase in data rate is related to the performance of the equipment used as well as the transmission method.…”

Section: Introductionmentioning

confidence: 99%

Underwater laser communication with sloped pulse modulation in turbid water

Kang

Kim

et al. 2019

International Journal of Distributed Sensor Networks

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In this article, we propose the demonstration of an underwater wireless laser communication link operating at data rates of up to 100 Mbps over a band-limited turbid water channel using a modified pulse position modulation scheme with a sloped pulse. The communication link uses an avalanche photodiode module as the receiver. The bit error rate of a 5.4 3 10 26 by 450-nm blue laser diode in turbid water with 1.4 Nephelometric Turbidity Unit was below the forward error correction limit. Our demonstrated underwater wireless laser communication system is simple to use and maintains a high data transmission rate.

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Underwater Laser Communication Using an OFDM-Modulated 520-nm Laser Diode

Cited by 63 publications

References 19 publications

Study and Simulation of Transporting Radio Frequency Signals over Free Space Optics for Achieving High Data Rate and Power Saving

Study and Simulation of Transporting Radio Frequency Signals over Free Space Optics for Achieving High Data Rate and Power Saving

Blue Laser Diode-Based Visible Light Communication and Solid-State Lighting

Underwater laser communication with sloped pulse modulation in turbid water

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