Abstract
Based on the Point-in-Polygon (PIP) algorithm, a management system is developed that allows analyzing areas with interference problems in auxiliary radio broadcasting link services. Through georeferencing, the current distribution and occupation status of the radio spectrum is visualized, and the results are compared with the frequency assignment in the current channeling plan proposed by the Telecommunications Regulation and Control Agency (ARCOTEL, in Spanish). The system is validated by means of radio spectrum measurement ratios, and results show that a large part of the links must migrate and modify their bandwidth.
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References
Mazar (Madjar), H. (2016) The radio frequency spectrum and wireless communications. Wiley, 1–4
Nandakumar S, Velmurugan T, Thiagarajan U, Karuppiah M, Hassan MM, Alelaiwi A, Islam MM (2019) Efficient spectrum management techniques for cognitive radio networks for proximity service. IEEE Access 7:43795–43805
ARCOTEL: Plan Nacional de Frecuencias Ecuador 2017, 161
International Telecommunications Union (2015) Guidance on the regulatory framework for national spectrum management SM Series, 2
Ministerio de Telecomunicaciones y Sociedad de la Información: La Sociedad es la beneficiaria del recurso natural del Espectro Radioeléctrico (2018)
Karyakin VL (2017) Evaluation of efficiency of fighting with interference distortion in Single-Frequency Networks of TV broadcasting. 2017 systems of signal synchronization, generating and processing in telecommunications, SINKHROINFO 2017
LLanos A (2013) Gestión del espectro radioeléctrico en Ecuador
IEEE standard for definitions and concepts for dynamic spectrum access: terminology relating to emerging wireless networks, system functionality, and spectrum management. IEEE Std 1900.1-2019 (Revision of IEEE Std 1900.1-2008), pp 1–78
DataServices A (2009) Algoritmo del punto en un polígono en PHP
Narkhede A, Manocha D (1995) Fast polygon triangulation based on Seidel’s algorithm. Academic Press, Inc
Fan J, He H, Hu T, Li G, Qin L, Zhou Y (2018) Rasterization computing-based parallel vector polygon overlay analysis algorithms using OpenMP and MPI. IEEE Access 6:21427–21441
Berezsky OM, Pitsun OY (2017) Computation of the minimum distance between non-convex polygons for segmentation quality evaluation. In: 2017 12th international scientific and technical conference on computer sciences and information technologies (CSIT). Vol 1, pp 183–186
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Cedillo-Mendoza, N.D., Guerrero-Vásquez, L.F., Pesántez-Romero, I.S., Ochoa-Figueroa, E.E., Ordoñez-Ordoñez, J.O., Jara-Quito, T.A. (2022). Algorithm for Locating Regions with the Greatest Interference on Radio Links: A Case Study of Ecuador. In: Yang, XS., Sherratt, S., Dey, N., Joshi, A. (eds) Proceedings of Sixth International Congress on Information and Communication Technology. Lecture Notes in Networks and Systems, vol 217. Springer, Singapore. https://doi.org/10.1007/978-981-16-2102-4_51
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DOI: https://doi.org/10.1007/978-981-16-2102-4_51
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