Sistema de Agrupación de Antenas Definidas por Software de bajo costo, como Instrumento de Medida de MIMO, para Investigación y Academia
DOI:
https://doi.org/10.37135/unach.ns.001.02.09Palabras clave:
SDR, agrupación de antenas, instrumento de medición, MIMOResumen
En este trabajo se presenta un método de configuración un Sistema de Agrupación de Antenas Definidas por Software, para medir parámetros Si1 y fase, provenientes de cuatro entradas de radio frecuencia. Se utilizó un computador para configurar el sistema, generar la forma de onda, y procesar señales recibidas a través del circuito integrado AD9361 de Analog Devices y el controlador Xilinx Zynq- 7000 SoC. Para determinar la precisión en potencia y fase de la señal en agrupaciones de antenas, se ha caracterizado un divisor de potencia de 1:8 y un acoplador hibrido de 180 grados, ambos dispositivos para la banda de 0.5 GHz a 6 GHz. Finalmente, se exponen algunas aplicaciones posibles del sistema en Síntesis de Agrupación de Antenas, algoritmos de beamforming, así como en la estimación de la dirección de la señal recibida.
Descargas
Los datos de descarga aún no están disponibles.
Referencias
- Alawsh, S. A., Al Khazragi, O. A., Muqaibel, A. H., and Al-Ghadhban, S. N. Sparse direction of arrival estimation using sparse arrays based on software-defined-radio platform. In Electrical and Electronics Engineering (ELECO), 2017 10th International Conference on, pp. 671-675. IEEE.
- Analog Device, A. (2014). Fmcomms5-ebz evaluation board, rev b schematic. https://wiki.analog.com/resources/eval/user-guides/ad-fmcomms5-ebz/hardware.
- Cardama, Á., Jofre, L., Rius, J. M., Romeu, J., Blanch, S., and Ferrando, M. (2002). Antenas. Ediciones de la Universitat Politècnica de Catalunya, pp. 181-230.
- Chinatto, A. and Junqueira, C. Real time beamforming algorithms: Experimental validation. In Microwave and Optoelectronics Conference (IMOC), 2017 SBMO/IEEE MTT-S International, pp. 1-5. IEEE.
- Chopra, R. and Lakhmani, R. Design and comparative evaluation of antenna array performance using non blind lms beamforming algorithms. In Progress in Electromagnetics Research Symposium-Fall (PIERS-FALL), 2017, pp. 1827-1834. IEEE.
- Devices, A. (2013-2016). Ad9361 data sheet rf agile transceiver. http://www.analog.com/media/en/technical-documentation/data-sheets/AD9361.pdf.
- Godara, L. C. (1997). Application of antenna arrays to mobile communications. ii. beam-forming and direction-of-arrival considerations. Proceedings of the IEEE, 85 (8), 1195-1245.
- Harikrishnan, B., Raghul, R., Shibu, R., and Nair, K. R. All programmable soc based standalone sdr platform for researchers and academia. In Computational Systems and Communications (ICCSC), 2014 First International Conference on, pp. 384-386. IEEE.
- Haroun, M. H., Ayad, H., Jomaa, J., Fadlallah, M., Jomaa, K., Fabres, M. C., and Bataller, M. F. Sampled antenna array digital beamforming for lte-advanced. In High Performance Computing & Simulation (HPCS), 2017 International Conference on, pp. 282-287. IEEE.
- Hwang, S., Kim, H. J., Kim, K. T., and Choi, J. W. Testbed implementation of near-field magnetic mimo communication system using sdr. In Antennas and Propagation (ISAP), 2016 International Symposium on, pp. 610-611. IEEE.
- Llanga-Vargas, A., Peñafiel-Ojeda, C. R., Santillán-Haro, D., Cabedo-Fabrés, M., Antonino-Daviu, E., and Ferrando-Bataller, M. Antenas para estaciones base 5g definidas por software. In XXXIII Simposium nacional de la unión científica internacional de radio, 2018 International Conference, pp. 282-287. URSI.
- Malkowsky, S., Vieira, J., Liu, L., Harris, P., Nieman, K., Kundargi, N., Wong, I. C., Tufvesson, F., Owall, V., and Edfors, O. (2017). The world’s first real-time testbed for massive mimo: Design, implementation, and validation. IEEE Access, 5, 9073-9088.
- Pozar, D. M. (2009). Microwave engineering. MICROWAVE NETWORK ANALYSIS, fourth edition, John Wiley & Sons, pp. 197-199.
- Shi, T., Guo, W., Yang, L., and Li, A. Remote wideband data acquiring system based on zc706 and ad9361. In Wireless Symposium (IWS), 2015 IEEE International, pp. 1-4. IEEE.
- Tosovsky, P. Software defined phased array antenna architecture and design approach. In Satellite and Space Communications, 2009. IWSSC 2009. International Workshop on, pp. 143-147. IEEE.
- Tripathi, G. C., Jaraut, P., Rawat, M., and Reddy, L. Digital predistortion of power amplifiers with diversity technique in 4g mimo transceivers. In International Microwave and RF Conference (IMaRC), 2015 IEEE MTT-S, pp. 53-55. IEEE.
- Tripathi, G. C., Jaraut, P., Rawat, M., and Reddy, L. Low cost implementation of software defined radio for improved transmit quality of 4g signals. In Communication, Control and Intelligent Systems (CCIS), 2015, pp. 108-112. IEEE.
- Zynq, X. (2015). 7000 all programmable soc zc702 evaluation kit. https://www.xilinx.com/products/boards-and-kits/ek-z7-zc702-g.html.
- Analog Device, A. (2014). Fmcomms5-ebz evaluation board, rev b schematic. https://wiki.analog.com/resources/eval/user-guides/ad-fmcomms5-ebz/hardware.
- Cardama, Á., Jofre, L., Rius, J. M., Romeu, J., Blanch, S., and Ferrando, M. (2002). Antenas. Ediciones de la Universitat Politècnica de Catalunya, pp. 181-230.
- Chinatto, A. and Junqueira, C. Real time beamforming algorithms: Experimental validation. In Microwave and Optoelectronics Conference (IMOC), 2017 SBMO/IEEE MTT-S International, pp. 1-5. IEEE.
- Chopra, R. and Lakhmani, R. Design and comparative evaluation of antenna array performance using non blind lms beamforming algorithms. In Progress in Electromagnetics Research Symposium-Fall (PIERS-FALL), 2017, pp. 1827-1834. IEEE.
- Devices, A. (2013-2016). Ad9361 data sheet rf agile transceiver. http://www.analog.com/media/en/technical-documentation/data-sheets/AD9361.pdf.
- Godara, L. C. (1997). Application of antenna arrays to mobile communications. ii. beam-forming and direction-of-arrival considerations. Proceedings of the IEEE, 85 (8), 1195-1245.
- Harikrishnan, B., Raghul, R., Shibu, R., and Nair, K. R. All programmable soc based standalone sdr platform for researchers and academia. In Computational Systems and Communications (ICCSC), 2014 First International Conference on, pp. 384-386. IEEE.
- Haroun, M. H., Ayad, H., Jomaa, J., Fadlallah, M., Jomaa, K., Fabres, M. C., and Bataller, M. F. Sampled antenna array digital beamforming for lte-advanced. In High Performance Computing & Simulation (HPCS), 2017 International Conference on, pp. 282-287. IEEE.
- Hwang, S., Kim, H. J., Kim, K. T., and Choi, J. W. Testbed implementation of near-field magnetic mimo communication system using sdr. In Antennas and Propagation (ISAP), 2016 International Symposium on, pp. 610-611. IEEE.
- Llanga-Vargas, A., Peñafiel-Ojeda, C. R., Santillán-Haro, D., Cabedo-Fabrés, M., Antonino-Daviu, E., and Ferrando-Bataller, M. Antenas para estaciones base 5g definidas por software. In XXXIII Simposium nacional de la unión científica internacional de radio, 2018 International Conference, pp. 282-287. URSI.
- Malkowsky, S., Vieira, J., Liu, L., Harris, P., Nieman, K., Kundargi, N., Wong, I. C., Tufvesson, F., Owall, V., and Edfors, O. (2017). The world’s first real-time testbed for massive mimo: Design, implementation, and validation. IEEE Access, 5, 9073-9088.
- Pozar, D. M. (2009). Microwave engineering. MICROWAVE NETWORK ANALYSIS, fourth edition, John Wiley & Sons, pp. 197-199.
- Shi, T., Guo, W., Yang, L., and Li, A. Remote wideband data acquiring system based on zc706 and ad9361. In Wireless Symposium (IWS), 2015 IEEE International, pp. 1-4. IEEE.
- Tosovsky, P. Software defined phased array antenna architecture and design approach. In Satellite and Space Communications, 2009. IWSSC 2009. International Workshop on, pp. 143-147. IEEE.
- Tripathi, G. C., Jaraut, P., Rawat, M., and Reddy, L. Digital predistortion of power amplifiers with diversity technique in 4g mimo transceivers. In International Microwave and RF Conference (IMaRC), 2015 IEEE MTT-S, pp. 53-55. IEEE.
- Tripathi, G. C., Jaraut, P., Rawat, M., and Reddy, L. Low cost implementation of software defined radio for improved transmit quality of 4g signals. In Communication, Control and Intelligent Systems (CCIS), 2015, pp. 108-112. IEEE.
- Zynq, X. (2015). 7000 all programmable soc zc702 evaluation kit. https://www.xilinx.com/products/boards-and-kits/ek-z7-zc702-g.html.
Archivos adicionales
Publicado
2018-12-12
Número
Sección
Artículos de Investigación y Artículos de Revisión
Cómo citar
Sistema de Agrupación de Antenas Definidas por Software de bajo costo, como Instrumento de Medida de MIMO, para Investigación y Academia. (2018). Novasinergia, ISSN 2631-2654, 1(2), 83-89. https://doi.org/10.37135/unach.ns.001.02.09
