Overcoming bandwidth limitation of light‐emitting diode in visible light communication using differential pulse amplitude modulation

2015 ◽  
Vol 54 (12) ◽  
pp. 126102 ◽  
Author(s):  
Se-Hoon Yang ◽  
Do-Hoon Kwon ◽  
Sung-Jin Kim ◽  
Sang-Kook Han
Keyword(s):  
Visible Light ◽  
Amplitude Modulation ◽  
Light Emitting Diode ◽  
Pulse Amplitude ◽  
Visible Light Communication ◽  
Differential Pulse ◽  
Pulse Amplitude Modulation ◽  
Light Emitting ◽  
Bandwidth Limitation

scholarly journals Superposed pulse amplitude modulation for visible light communication

2013 ◽  
Vol 21 (25) ◽  
pp. 31006 ◽  
Author(s):  
J. F. Li ◽  
Z. T. Huang ◽  
R. Q. Zhang ◽  
F. X. Zeng ◽  
M. Jiang ◽  
...  
Keyword(s):  
Visible Light ◽  
Amplitude Modulation ◽  
Pulse Amplitude ◽  
Visible Light Communication ◽  
Pulse Amplitude Modulation

scholarly journals Secrecy Dimming Capacity in Multi-LED PAM-Based Visible Light Communications

2017 ◽  
Vol 2017 ◽  
pp. 1-6
Author(s):  
Byung Wook Kim
Keyword(s):  
Visible Light ◽  
Light Emitting Diode ◽  
Mobile Network ◽  
Pulse Amplitude ◽  
Visible Light Communication ◽  
Security And Privacy ◽  
Visible Light Communications ◽  
Light Emitting ◽  
Secure Transmission ◽  
Transmission Ability

Recently, mobile cloud computing (MCC) has gained a lot of interest for researchers building the next-generation mobile applications. Because unauthorized access may cause serious problems, security and privacy with MCC have become significant issues. This paper addresses the secrecy dimming capacity of secure transmission in MCC over visible light communication (VLC) channels. By obtaining the entropy-maximizing symbol probability of multiple light emitting diode- (LED-) based pulse amplitude modulation (PAM), mathematical analysis of the secrecy dimming capacity of VLC was derived. Simulation results show that the secure transmission ability of multi-LED-based VLC is determined according to the number of activated LEDs and target dimming level. This can be a guideline for practical VLC-based mobile network designers intending to secure wireless transmission and to decide on the number of activated LEDs at target dimming level to operate.

Trellis-coded pulse amplitude modulation for indoor visible light communication

2013 ◽  
Author(s):  
Yu Wang ◽  
Aiying Yang ◽  
Yongsheng Wu ◽  
Lihui Feng ◽  
Yu-nan Sun ◽  
...  
Keyword(s):  
Visible Light ◽  
Amplitude Modulation ◽  
Pulse Amplitude ◽  
Visible Light Communication ◽  
Pulse Amplitude Modulation ◽  
Trellis Coded

A Light Emitting Diode Driver Based on Pulse Width Modulation and Pulse Amplitude Modulation Diming

2015 ◽  
Vol 35 (9) ◽  
pp. 0922003
Author(s):  
吴玉香 Wu Yuxiang ◽  
尚俊 Shang Jun ◽  
王孝洪 Wang Xiaohong ◽  
文尚胜 Wen Shangsheng
Keyword(s):  
Amplitude Modulation ◽  
Pulse Width ◽  
Pulse Width Modulation ◽  
Light Emitting Diode ◽  
Pulse Amplitude ◽  
Pulse Amplitude Modulation ◽  
Light Emitting

scholarly journals Multi-User Precoder Designs for RGB Visible Light Communication Systems

Sensors ◽  
2020 ◽  
Vol 20 (23) ◽  
pp. 6836
Author(s):  
Roser Viñals ◽  
Olga Muñoz ◽  
Adrián Agustín ◽  
Josep Vidal
Keyword(s):  
Visible Light ◽  
White Light ◽  
Communication Systems ◽  
Light Emitting Diodes ◽  
Light Emission ◽  
Light Emitting Diode ◽  
Pulse Amplitude ◽  
Visible Light Communication ◽  
Light Emitting ◽  
Weighted Sum Rate

In this paper, we design linear precoders for the downlink of a visible light communication (VLC) system that simultaneously serves multiple users. Instead of using phosphor-coated white light-emitting diodes (PWLEDs), we focus on Red-Green-Blue light-emitting diodes (RGB-LEDs) that allow modulating three separate data streams on the three primary colors of the RGB-LEDs. For this system, we design a zero-forcing (ZF) precoder that maximizes the weighted sum rate for a multilevel pulse amplitude modulation (M-PAM). The precoding design in RGB-based systems presents some challenges due to the system constraints, such as the limited power, the non-negative amplitude constraints per light-emitting diode (LED), and the need to guarantee white light emission while transmitting with RGB-LEDs. For comparison purposes, we also consider the ZF design for a PWLED-based system and evaluate the performance of both a PWLED- and an RGB-based system.

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