Design and implementation of opto-electro decoder using photonic structure: A new application of Li-fi vis-a-vis optical embedded system

Abstract An opto-electro decoder is envisaged in this research using the principle of filter and fidelity, where filter deals with an optical grating structure and fidelity are coped with light wave technology via visible communication. Further, the operational principle of filter relays on photonic band gap of the structure which is replicated through reflectance analysis with the help of the plane wave expansion method, where the working of Li-fi technology banks on the combination of the function of Arduino boards via LED and photo detector through hardware implementation which is characterized by the help of MATLAB Simulink model. To sum up, the combination of optical filter and light fidelity leads to an embedded application to figure out the decoding action.

[1]  A. Jabeena,et al.  Automation of home appliances using visible light communication , 2017, 2017 International Conference on Intelligent Sustainable Systems (ICISS).

[2]  Akbar Dargahi,et al.  Visible light for communication, indoor positioning, and dimmable illumination: A system design based on overlapping pulse position modulation , 2017 .

[3]  J.-S. Jang,et al.  Demonstration of vehicular visible light communication based on LED headlamp , 2013, 2013 Fifth International Conference on Ubiquitous and Future Networks (ICUFN).

[4]  Chao Wang,et al.  Visible light communication application scenarios based on Android smart devices’ LED lamp , 2015, 2015 14th International Conference on Optical Communications and Networks (ICOCN).

[5]  G. Palai,et al.  Analysis for ‘101’ channels of MUX/DEMUX using grating SOI Structure at sub nanometer scale , 2017 .

[6]  Bangjiang Lin,et al.  A VLC Smartphone Camera Based Indoor Positioning System , 2018, IEEE Photonics Technology Letters.

[7]  Dahmani Mohammed,et al.  Digital data transmission via Visible Light Communication (VLC): Application to vehicle to vehicle communication , 2016, 2016 4th International Conference on Control Engineering & Information Technology (CEIT).

[8]  Hongyu Guan,et al.  Suitability of visible light communication for platooning applications: An experimental study , 2018, 2018 Global LIFI Congress (GLC).

[9]  G. Palai,et al.  Realization of monochromatic filter using silicon grating structure: An application of silicon photonics , 2016 .

[10]  G. Palai,et al.  Optical MUX/DEMUX using 3D photonic crystal structure: A future application of silicon photonics , 2017 .

[11]  M. N. Mohanty,et al.  Exploiting VLC Technique for Smart Home Automation Using Arduino , 2017 .

[12]  Jianping Wang,et al.  Single LED-Based Indoor Positioning System Using Multiple Photodetectors , 2018, IEEE Photonics Journal.

[13]  Chau Yuen,et al.  Single LED ceiling lamp based indoor positioning system , 2018, 2018 IEEE 4th World Forum on Internet of Things (WF-IoT).

[14]  No-Cheol Park,et al.  Nanoimprinted photonic crystal color filters for solar-powered reflective displays , 2010, 17th Microopics Conference (MOC).

[15]  Photonic crystal-based RGB primary colour optical filter , 2016 .

[16]  Moustafa H. Aly,et al.  Smartphone payment via flashlight: Utilizing the built-in flashlight of smartphones as replacement for magnetic cards , 2016 .