Implementation of SDR-based television transmitter for the NTSC standard

Authors

DOI:

https://doi.org/10.15649/2346030X.3549

Keywords:

standard, implementation, service, television, transmitter

Abstract

The SDR (Software Defined Radio) platform allows various flexible communication systems to be implemented depending on the user's objectives and requirements, beyond the flexibility limit of the existing hardware platform. Therefore, interest and research on the implementation of software-based communication systems has increased. However, there are very few examples that show compatibility and performance measurements between implementation using SDR and real commercial systems. Therefore, in this article, we show the compatibility and performance of the communication system which is NTSC TV receiver and transmitter using GNU Radio and USRP in wireless communication environment.

References

M. Á. Sastoque-Caro, G. A. Puerto-Leguizamón, y C. A. Suárez-Fajardo, “Opportunities to implement Software Defined Radio in network sensors”, Rev. Fac. Ing., vol. 26, núm. 45, pp. 137–148, abr. 2017, doi: 10.19053/01211129.v26.n45.2017.6422.

“GNU Radio - The Free & Open Source Radio Ecosystem · GNU Radio”, GNU Radio. https://www.gnuradio.org/ 2023.

“What is the National Television Standards Committee?”, United States Now, el 21 de mayo de 2023. http://www.unitedstatesnow.org/what-is-the-national-television-standards-committee.htm. 2023.

“MINTIC Colombia - Servicio de Televisión Abierta”, MINTIC Colombia. http://www.mintic.gov.co/portal/715/w3-propertyvalue-461784.html 2023.

S. Chie, M. Zambrano, y C. Medina, “Estándares actuales de televisión digital: Una breve reseña”, Prisma Tecnológico, vol. 6, núm. 1, pp. 19–23, 2015.

“1.0 Standards Archives”, ATSC : NextGen TV. https://www.atsc.org/atsc-documents/type/1-0-standards/ . 2023.

I. I. Couch, W. León, y R. Navarro Salas, Sistemas de comunicación digitales y analógicos. 1998.

A. O. Mufutau, F. P. Guiomar, A. Oliveira y P. P. Monteiro, «Software-Defined Radio Enabled Cloud Radio Access Network Implementation Using OpenAirInterface,» Wireless Personal Communications, p. 1233–1253, 2021.

A. A. D. Barrio, J. P. Manzano, R. Hermida, J. P. Álvaro Villarín, M. Zapater y J. Ayala, «HackRF + GNU Radio: A software-defined radio to teach communication theory,» International Journal of Electrical Engineering & Education, vol. 60, pp. 23-40, 2023.

P. Rahimi, C. Chrysostomou, H. Pervaiz, V. Vassiliou y Q. Ni, «Joint Radio Resource Allocation and Beamforming Optimization for Industrial Internet of Things in Software-Defined Networking-Based Virtual Fog-Radio Access Network 5G-and-Beyond Wireless Environments,» IEEE Transactions on Industrial Informatics , vol. 18, pp. 4198 - 4209, 2022.

G. Alvarez y M. Elizabeth, «Implementación de un sistema de transmisión de televisión digital basado en software usando SDR (radio definido por software), para el análisis de la factibilidad de la migración de televisión analógica a digital en Ecuador.,» Escuela Superior Politécnica de Chimborazo, Chimborazo, 2017.

A. M. R. Placencia, «Implementación de un sistema de transmisión de televisión analógica NTSC,» Universidad Nacional Tecnológica de Lima Sur, Lima, 2017.

E. F. Pupo, R. C. Alvarez, A. G. García y R. D. Hernández, «Protection ratios and overload thresholds between 700 MHz FDD-LTE and analog/digital terrestrial television,» 2020 IEEE International Symposium on Broadband Multimedia Systems and Broadcasting (BMSB), pp. 1-5, 2020.

Published

2024-01-01

How to Cite

[1]
K. Y. Sánchez-Mojica, W. A. Contreras-Gómez, C. V. Niño-Rondón, and K. C. Puerto-López, “Implementation of SDR-based television transmitter for the NTSC standard”, AiBi Revista de Investigación, Administración e Ingeniería, vol. 12, no. 1, pp. 41–46, Jan. 2024.

Issue

Section

Research Articles

Altmetrics

Downloads

Download data is not yet available.