Performance Evaluation of Parallel Transmission Visible Light Communication Systems Using Colour Shift Keying
H. Tadahiro Wada, and K. Mukumoto2. International Journal of Multimedia & Its Applications (IJMA), 9 (2):
21-33(April 2017)
Abstract
In this paper, we deal with parallel-transmission visible light communication (PT-VLC) systems using Colour-Shift Keying (CSK). We construct a prototype of PT-VLC systems utilizing a Liquid Crystal Display (LCD) as a transmitter and an Image Sensor (IS) as a receiver. We also propose a new colour estimation
algorithm for CSK and integrate the algorithm into the prototype. We show effectiveness of the system by evaluating Bit Error Rate (BER) performance, Frame Error Rate (FER) performance, and throughput performance. We also adopt a Turbo code for error correction and show its effectiveness in the proposed VLC system.
%0 Journal Article
%1 tadahirowada2017performance
%A Tadahiro Wada, Haruki Furukawa
%A Mukumoto2, Kaiji
%D 2017
%E Emmanuel, Bouix
%J International Journal of Multimedia & Its Applications (IJMA)
%K Bit Colour Turbo Visible code communication, error keying, light performance, rate shift
%N 2
%P 21-33
%T Performance Evaluation of Parallel Transmission Visible Light Communication Systems Using Colour Shift Keying
%U http://aircconline.com/ijma/V9N2/9217ijma03.pdf
%V 9
%X In this paper, we deal with parallel-transmission visible light communication (PT-VLC) systems using Colour-Shift Keying (CSK). We construct a prototype of PT-VLC systems utilizing a Liquid Crystal Display (LCD) as a transmitter and an Image Sensor (IS) as a receiver. We also propose a new colour estimation
algorithm for CSK and integrate the algorithm into the prototype. We show effectiveness of the system by evaluating Bit Error Rate (BER) performance, Frame Error Rate (FER) performance, and throughput performance. We also adopt a Turbo code for error correction and show its effectiveness in the proposed VLC system.
@article{tadahirowada2017performance,
abstract = {In this paper, we deal with parallel-transmission visible light communication (PT-VLC) systems using Colour-Shift Keying (CSK). We construct a prototype of PT-VLC systems utilizing a Liquid Crystal Display (LCD) as a transmitter and an Image Sensor (IS) as a receiver. We also propose a new colour estimation
algorithm for CSK and integrate the algorithm into the prototype. We show effectiveness of the system by evaluating Bit Error Rate (BER) performance, Frame Error Rate (FER) performance, and throughput performance. We also adopt a Turbo code for error correction and show its effectiveness in the proposed VLC system. },
added-at = {2017-05-03T03:36:51.000+0200},
author = {Tadahiro Wada, Haruki Furukawa and Mukumoto2, Kaiji},
biburl = {https://www.bibsonomy.org/bibtex/2094633d8f73269e5178ea32e558e8f57/laimbee},
editor = {Emmanuel, Bouix},
interhash = {d318225bccd1f534e4ad4d86092d8240},
intrahash = {094633d8f73269e5178ea32e558e8f57},
journal = { International Journal of Multimedia & Its Applications (IJMA) },
keywords = {Bit Colour Turbo Visible code communication, error keying, light performance, rate shift},
month = {April},
number = 2,
pages = {21-33},
timestamp = {2017-05-03T03:36:51.000+0200},
title = {Performance Evaluation of Parallel Transmission Visible Light Communication Systems Using Colour Shift Keying},
url = {http://aircconline.com/ijma/V9N2/9217ijma03.pdf},
volume = 9,
year = 2017
}