Wireless transmission of audio signals and temperature data using an optoelectronic system

This work presents an optoelectronic instrument designed for wireless visible light communication (WVLC) systems, operating within a wavelength range of 380–750 nm and compatible with standard radio frequency (RF) communication. The instrument encompasses two distinct architectures. The first enable...

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Veröffentlicht in:	Review of scientific instruments 2024-10, Vol.95 (10)
Hauptverfasser:	Sabory-García, R., García-Delgado, L. A., Noriega, J. R., Acosta-Enríquez, M. C., Vera-Marquina, A., Leal-Cruz, A. L., Zaldívar-Huerta, I. E., García-Juárez, A.
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Sprache:	eng
Schlagworte:	Acousto-optics Audio data Audio signals Bluetooth Communications systems Multiplexing Optoelectronic devices Radio frequency Signal processing Signal transmission Wireless communications
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creator	Sabory-García, R. García-Delgado, L. A. Noriega, J. R. Acosta-Enríquez, M. C. Vera-Marquina, A. Leal-Cruz, A. L. Zaldívar-Huerta, I. E. García-Juárez, A.
description	This work presents an optoelectronic instrument designed for wireless visible light communication (WVLC) systems, operating within a wavelength range of 380–750 nm and compatible with standard radio frequency (RF) communication. The instrument encompasses two distinct architectures. The first enables the transmission and reception of RF-processed audio signals through a three-stage process involving RF signal transmission via Bluetooth, signal multiplexing using acousto-optic modulation, a sinusoidal grating, a PIN photodetector array, and final audio playback. The second architecture focuses on the wireless transmission and reception of temperature data, utilizing a similar three-stage approach that includes temperature data measurements with an LM35 sensor, signal processing with Arduino UNO microcontrollers, and information transmission via Bluetooth. Experimental results for both architectures validate the effectiveness of this optoelectronic instrument, demonstrating its capability to integrate RF and WVLC technologies.
doi_str_mv	10.1063/5.0207231
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The second architecture focuses on the wireless transmission and reception of temperature data, utilizing a similar three-stage approach that includes temperature data measurements with an LM35 sensor, signal processing with Arduino UNO microcontrollers, and information transmission via Bluetooth. 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subjects	Acousto-optics Audio data Audio signals Bluetooth Communications systems Multiplexing Optoelectronic devices Radio frequency Signal processing Signal transmission Wireless communications
title	Wireless transmission of audio signals and temperature data using an optoelectronic system
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