Mostrando 9 resultados de: 9
Publisher
IEEE Transactions on Intelligent Transportation Systems(2)
IET Communications(2)
Sensors (Switzerland)(2)
2018 IEEE Antennas and Propagation Society International Symposium and USNC/URSI National Radio Science Meeting, APSURSI 2018 - Proceedings(1)
2019 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, APSURSI 2019 - Proceedings(1)
Área temáticas
Física aplicada(4)
Transporte(4)
Ciencias de la computación(3)
Comunicaciones(3)
Otras ramas de la ingeniería(3)
Comparative Study of Artificial Neural Network Based Channel Equalization Methods for mmWave Communications
ArticleAbstract: In this paper, we compare two artificial neural networks (ANNs) approaches designed to perform channPalabras claves:5G and beyond, channel equalization, elm, mmWave communications, Multilayer Perceptron, OFDMAutores:Azpilicueta L., Diego Fernando Carrera, Noe M. Yungaicela-Naula, Vargas-Rosales C.Fuentes:scopusComparative study of channel estimators for massive MIMO 5G NR systems
ArticleAbstract: In this work, a comparative analysis is performed to study the bit error rate and error vector magniPalabras claves:Autores:Azpilicueta L., Diego Fernando Carrera, Galaviz-Aguilar J.A., Vargas-Rosales C.Fuentes:scopusDeterministic propagation modeling for intelligent vehicle communication in smart cities
ArticleAbstract: The authors would like to acknowledge the support and collaboration of the Telecommunications and NePalabras claves:Autores:Aguirre E., Astrain J.J., Azpilicueta L., Celaya-Echarri M., Falcone F., Fausto Granda, Lopez-Iturri P., Medrano P., Vargas-Rosales C., Villandangos J.Fuentes:googlescopusAchieving the performance of the MMSE receiver with the maximum ratio combiner
ArticleAbstract: In this article, we propose a new pilot mapping method to jointly estimate the channel state informaPalabras claves:Autores:Azpilicueta L., Diego Fernando Carrera, Fausto Granda, Vargas-Rosales C.Fuentes:googlescopusOptimization and Design of Wireless Systems for the Implementation of Context Aware Scenarios in Railway Passenger Vehicles
ArticleAbstract: In this paper, intra-wagon wireless communication performance is analyzed, in order to account for iPalabras claves:3-D ray launching, Train passenger wagon, wireless sensor networks (WSN)Autores:Astrain J.J., Azpilicueta L., Bahillo A., Falcone F., Fausto Granda, Lopez-Iturri P., Perallos A., Vargas-Rosales C., Villandangos J.Fuentes:googlescopusIntegration of Wireless Sensor Networks in Intelligent Transportation Systems within Smart City Context
Conference ObjectAbstract: The use of Vehicular Ad Hoc Networks has been exponentially growing in the last few years. Because oPalabras claves:3D Ray Launching, urban infrastructure, V2I, V2V, wireless networksAutores:Aguirre E., Azpilicueta L., Falcone F., Fausto Granda, Lopez-Iturri P., Vargas-Rosales C.Fuentes:googlescopusRF channel propagation modeling for wireless sensor networks in intelligent transportation systems
Conference ObjectAbstract: One of the most relevant challenge of Smart Cities is an effective transport service in terms of safPalabras claves:3D Ray Launching, urban infrastructure, V2I, V2V, wireless networksAutores:Azpilicueta L., Celaya-Echarri M., Falcone F., Fausto Granda, Lopez-Iturri P., Vargas-Rosales C.Fuentes:googlescopusSpatial V2X Traffic Density Channel Characterization for Urban Environments
ArticleAbstract: In this work, Vehicle-to-everything (V2X) wireless communications performance is analyzed, in orderPalabras claves:3D Ray Launching, channel characterization, microscopic vehicular simulator, urban environments, V2X traffic densityAutores:Azpilicueta L., Celaya-Echarri M., Falcone F., Fausto Granda, Lopez-Iturri P., Vargas-Rosales C.Fuentes:googlescopusSpatial characterization of radio propagation channel in urban vehicle-to-infrastructure environments to support WSNs deployment
ArticleAbstract: Vehicular ad hoc Networks (VANETs) enable vehicles to communicate with each other as well as with roPalabras claves:3D Ray Launching, Coherence bandwidth, Path loss, Vehicle-to-Infrastructure communication (V2I), Vehicular ad-hoc networks (VANET), wireless sensor networks (WSN)Autores:Aguirre E., Astrain J.J., Azpilicueta L., Falcone F., Fausto Granda, Lopez-Iturri P., Vargas-Rosales C., Villandangos J.Fuentes:googlescopus