Search results for "Software Defined Radio"

showing 9 items of 9 documents

Uso de Software-Defined Radio en la enseñanza de sistemas de comunicaciones

2017

[ES] En la docencia de sistemas de comunicación hay una componente teórica elevada. La percepción de los estudiantes al estudiar estas asignaturas es negativa. Este trabajo trata de explicar la motivación y la estrategia seguida para reorientar esta percepción a partir de la introducción de elementos de “Software-Defined Radio” (SDR) y “Universal Software Radio Peripherals” (USRP) en diferentes asignaturas del Grado de Ingenier´ıa Telem´atica de la Universitat de València

:CIENCIAS TECNOLÓGICAS [UNESCO]software defined radioSoftware-Defined RadioRTL-SDRTelematicsDVB-TUNESCO::CIENCIAS TECNOLÓGICASTelemáticaingeniería telemáticaUSRPRDScomunicaciones digitalesProceedings XIII Jornadas de Ingenieria Telematica - JITEL2017
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Radio definida por software y docencia en línea: experiencia en el Grado en Ingeniería Telemática

2021

[EN] Devices based on software defined radio have been used in the last 6 years as motivating elements in the laboratory practices of digital communications courses at the Degree in Telematics Engineering of the University of Valencia. However, the development of these practices requires giving access to some hardware devices that are physically located in the laboratories of the School of Engineering. In this contribution, taking into account the current situation of hybrid learning and a possible transition to remote learning due to the COVID-19 pandemic, a system that allows the remote interaction with the software defined radio devices is proposed. This remote access system, in addition t…

Innovación educativa:CIENCIAS TECNOLÓGICAS [UNESCO]software defined radioRemote learningUNESCO::CIENCIAS TECNOLÓGICAScomunicaciones digitalesDigital CommunicationsEducación superiorEnseñanza superiorTecnologías y educaciónSDRdocencia en líneaSoftware defined radioRadio definida por software
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Innovación en docencia de sistemas de comunicación en el Grado de Ingeniería Telemática de la UVEG

2016

[EN] In teaching Communication Systems, we find a high theoretical component. The perception about the related subjects cause a negative perception in the students. This work explains the motivation and the strategy followed to re-orientate this perception by introducing Software Defined Radio elements (like USRPs) in different subjects in the Degree and the Master in Telecommunication Engineering at the University of Valencia

Innovación educativa:CIENCIAS TECNOLÓGICAS [UNESCO]software defined radioUNESCO::CIENCIAS TECNOLÓGICASGITcomunicaciones digitalesEducación superiorEnseñanza superiorRTL-SDRComunicacionesTecnologías y educaciónUSRPMITUVLibro de Actas IN-RED 2016 - II Congreso Nacional de Innovación Educativa y de Docencia en Red
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Incorporando dispositivos de radio definida por software en la materia de Comunicaciones Digitales: del grupo piloto a la gran clase

2020

[ES] La innovación educativa es un proceso que se extiende más allá de un curso académico. En su desarrollo se distinguen las etapas de planificación, implementación, evaluación y realimentación, para identificar aspectos susceptibles de mejora. En esta contribución presentamos el trabajo desarrollado en los dos últimos cursos en la asignatura Teoría de la Comunicación (materia de Comunicaciones Digitales), Grado en Ingeniería Telemática, de la Universitat de València. Concretamente, se incorporan dispositivos de radio definida por software en los laboratorios como herramienta para conseguir unas prácticas más realistas. El artículo describe el proceso de adaptación de una sesión de laboratori…

Innovación educativaComunicaciones digitalesAprendizaje basado en proyectosActive learningEducación superiorSoftware Defined Radio (SDR)Enseñanza superiorDigital communicationsTecnologías y educaciónRadio definida por software
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AI for Resource Allocation and Resource Allocation for AI: a two-fold paradigm at the network edge

2022

5G-and-beyond and Internet of Things (IoT) technologies are pushing a shift from the classic cloud-centric view of the network to a new edge-centric vision. In such a perspective, the computation, communication and storage resources are moved closer to the user, to the benefit of network responsiveness/latency, and of an improved context-awareness, that is, the ability to tailor the network services to the live user's experience. However, these improvements do not come for free: edge networks are highly constrained, and do not match the resource abundance of their cloud counterparts. In such a perspective, the proper management of the few available resources is of crucial importance to impr…

Internet Of ThingMINLPIoTEdge NetworkPerformance EvaluationLow Power Wide Area NetworkSystem ModelingSettore ING-INF/03 - TelecomunicazioniUAVSoftware Defined RadioReal TestbedVehicular NetworkMLLoRaReinforcement LearningResource AllocationMachine LearningGame TheoryArtificial IntelligenceAILPWANColosseum Channel EmulatorChannel EmulationEmulationSDR
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SDR-LoRa

2022

In this paper, we present SDR-LoRa, a full-fledged SDR implementation of a LoRa transmitter and receiver. First, we reverse-engineer the LoRa physical layer (PHY) functionalities, including the procedures of packet modulation, demodulation, and preamble detection. Based on this analysis, we develop the first Software Defined Radio (SDR) implementation of the LoRa PHY. Furthermore, we integrate LoRa with an Automatic Repeat Request (ARQ) error detection protocol. SDR-LoRa has been validated on (i) the Colosseum wireless channel emulator; and (ii) a real testbed with USRP radios and commercial-off-the-shelf (COTS) devices. Our experimental results demonstrate that the performance of SDR-LoRa …

IoTSettore ING-INF/03 - TelecomunicazioniLPWANSoftware Defined RadioLoRaProceedings of the 16th ACM Workshop on Wireless Network Testbeds, Experimental evaluation & CHaracterization
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Active learning in digital communications with low-cost software defined radio

2021

Las comunicaciones digitales se enseñan tradicionalmente en sesiones de laboratorio desde un punto de vista teórico, utilizando plataformas de simulación. Sin embargo, el sistema de Acreditación Académica incluye la dimensión de "lo que se espera que los estudiantes sean capaces de hacer", lo que plantea la necesidad de disminuir la brecha entre las sesiones de laboratorio simuladas y un enfoque más práctico y realista. En este trabajo, proponemos una metodología para mejorar el aprendizaje de los aspectos prácticos relacionados con los cursos de Comunicaciones Digitales, así como para aumentar la motivación de los estudiantes, mediante el uso de dispositivos de radio definida por software …

Signal processingdigital communications:CIENCIAS TECNOLÓGICAS [UNESCO]Higher educationMultimediasoftware defined radioUniversal Software Radio Peripheralbusiness.industryComputer scienceTeachingEducational systemsSoftware-defined radioHigher EducationUNESCO::CIENCIAS TECNOLÓGICAScomputer.software_genreActive learningLearningbusinessHackRF OneUSRPSDRsignal processingcomputerEducational systems
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A Software Defined Radio Platform Implementing a WiFi and ZigBee Receiver

2006

A successful attempt to design and implement a multi-standard compliant Basebnd Processor is here presented. By exploiting the potential of FPGA's reconfigurability, the received signal from RF stage have been processed in order to properly decode frames of IEEE 802.11 (WiFi) and IEEE 802.15.4 (ZigBee) protocols. both falling within the ISM band (centered at 2.45GHz). The experimental implementation carried out is a practical demonstration of the Software Defined Radio concept.

Software Defined Radio Reconfigurable Architecture FPGA Implementation 802.11 ZigBeeSettore ING-INF/01 - Elettronica
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Low-Cost Sensor Based on SDR Platforms for TETRA Signals Monitoring

2021

The paper presents the design and implementation of an electromagnetic field monitoring sensor for the measurement of the Terrestrial Truncked Radio (TETRA) signals using low-cost software defined radio (SDR) platforms. The sensor includes: an SDR platform, a Global Positioning System (GPS) module and a hardware control module. Several SDR platforms having different resolutions of the analog–digital converters were tested in the first phase. The control module was implemented in two variants: a fixed one, using a laptop, and a mobile one, using a Raspberry Pi. The tests demonstrate the following achieved performances: instantaneous acquisition band of 5.12 MHz

business.product_categoryComputer sciencePhase (waves)TP1-118502 engineering and technology01 natural sciencesBiochemistryArticleAnalytical Chemistryelectromagnetic field monitoringSoftware portabilitylow-cost0202 electrical engineering electronic engineering information engineeringTETRA signalsElectrical and Electronic EngineeringInstrumentationsoftware defined radiobiologyDynamic rangebusiness.industryChemical technology010401 analytical chemistry020206 networking & telecommunicationsSoftware-defined radioConvertersbiology.organism_classificationAtomic and Molecular Physics and Opticsreal-time sensor0104 chemical sciencesLaptopGlobal Positioning SystemTetrabusinessComputer hardwareSensors
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