DocumentCode
1590372
Title
Investigation of code division multiplexing technique for VLC-based indoor positioning
Author
Szabo, Gabor
Author_Institution
Dept. of Broadband Infocommunications & Electromagn. Theor., Budapest Univ. of Technol. & Econ., Budapest, Hungary
fYear
2015
Firstpage
1
Lastpage
4
Abstract
The visible light communication (VLC) with LED lamps is a very promising technique which can be a possible alternative to certain simplex radio connections aiming to relieve the quickly saturating radio frequency domain. The advantages of visible light communication can be exploited by indoor applications most efficiently. Because - similarly to radio communications - it may be necessary to run more connections simultaneously, the signals of each transmitter must be discriminable. A certain method that ensures the discriminability of signals is code division multiplexing (CDM). In this multiplexing method the channels share a common frequency band but the signals of different transmitters use digital modulation with different quasi-orthogonal codes. In my study I show step-by-step how to realize a VLC CDM system. I approximate the parameters of a system of this type by simulation models, design the software to real-time communication and verify the functionality of VLC CDM scheme with visible light demonstration circuits.
Keywords
LED lamps; code division multiplexing; indoor navigation; optical modulation; optical transmitters; orthogonal codes; wireless channels; LED lamp; VLC-CDM based indoor positioning; code division multiplexing technique; digital modulation; quasi-orthogonal code; radio connection; radiofrequency domain; transmitter; visible light communication; Code division multiplexing; Frequency modulation; Light emitting diodes; Lighting; Optical transmitters; Receivers; CDM; CDMA; VLC; multiplexing;
fLanguage
English
Publisher
ieee
Conference_Titel
Transparent Optical Networks (ICTON), 2015 17th International Conference on
Conference_Location
Budapest
Type
conf
DOI
10.1109/ICTON.2015.7193505
Filename
7193505
Link To Document