1,894 research outputs found

    Software Defined Radio Localization using 802.11-style Communications

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    This major qualifying project implements a simple indoor localization system using software defined radio. Both time of arrival and received signal strength methods are used by an array of wireless receivers to trilaterate a cooperative transmitter. The implemented system builds upon an IEEE 802.11b-like communications platform implemented in GNU Radio. Our results indicate substantial room for improvement, particularly in the acquisition of time data. This project contributes a starting point for ongoing research in indoor localization, both through our literature review and system implementation

    LTE Spectrum Sharing Research Testbed: Integrated Hardware, Software, Network and Data

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    This paper presents Virginia Tech's wireless testbed supporting research on long-term evolution (LTE) signaling and radio frequency (RF) spectrum coexistence. LTE is continuously refined and new features released. As the communications contexts for LTE expand, new research problems arise and include operation in harsh RF signaling environments and coexistence with other radios. Our testbed provides an integrated research tool for investigating these and other research problems; it allows analyzing the severity of the problem, designing and rapidly prototyping solutions, and assessing them with standard-compliant equipment and test procedures. The modular testbed integrates general-purpose software-defined radio hardware, LTE-specific test equipment, RF components, free open-source and commercial LTE software, a configurable RF network and recorded radar waveform samples. It supports RF channel emulated and over-the-air radiated modes. The testbed can be remotely accessed and configured. An RF switching network allows for designing many different experiments that can involve a variety of real and virtual radios with support for multiple-input multiple-output (MIMO) antenna operation. We present the testbed, the research it has enabled and some valuable lessons that we learned and that may help designing, developing, and operating future wireless testbeds.Comment: In Proceeding of the 10th ACM International Workshop on Wireless Network Testbeds, Experimental Evaluation & Characterization (WiNTECH), Snowbird, Utah, October 201

    Development and testing of the RHINO host streamed data acquisition framework

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    This project focuses on developing a supporting framework for integrating the Reconfigurable Hardware INterface for computing and radiO (RHINO) with a Personal Computer (PC) host in order to facilitate the development of Software Defined Radio (SDR) applications built using a hybrid RHINO/multicore PC system. The supporting framework that is the focus of this dissertation is designed around two main parts: a) resources for integrating the GNU Radio framework with the RHINO platform to allow data streams to be sent from RHINO to be processed by GNU Radio, and b) a concise and highly efficient C code module with accompanying Application Program Interface (API) that will receive streamed data from RHINO and provide data marshalling facilities to gather and dispatch blocks of data for further processing using C/C++ routines. The methodology followed in this research project involves investigating real-time streaming techniques using User Datagram Protocol (UDP) packets, furthermore, investigating how GNU Radio high-level SDR development framework can be integrated into the real-time data acquisition systems such as in the case of this project with RHINO. The literature for real-time processing requirements for the streamer framework was reviewed. The guidelines to implement a high performance, low latency and maximum throughput for streaming will consequently be presented and the proposed design motivated. The results achieved demonstrate an efficient data streaming system. The objectives of implementing RHINO data acquisition system through integration with standard C/C++ code and GNU Radio were satisfactorily met. The system was tested with real-time Radio Frequency (RF) demodulation. The system captures a pair of an In-phase/Quadrature signal (I/Q) sample at a time, which is one packet. The results show that data can be streamed from the RHINO board to GNU Radio over GbE with a minimum capturing latency of 10.2μs for 2 0 packet size and an average data capturing throughput of 0.54 Mega Bytes per second (MBps). The capturing latency, in this case, is the time taken from the time of the request to receiving the data. The FM receiver case study successfully demonstrated results of a demodulated FM signal of a 94.5 Mega Hetz (MHz) radio station. Further recommendations include making use of the 10GbE port on RHINO for data streaming purposes. 10GbE port on RHINO can be used together with GNU Radio to improve the speed of the RHINO streamer

    Exploiting Wireless Sensors: a gateway for 868MHz sensors

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    [ANGLÈS] The great interest in monitoring everything around us has increased the number of sensors that we utilize in our daily lives. Furthermore, the evolution of wireless technologies has facilitated their ubiquity. Moreover, is in locations such as homes and offices where exploitation of the data from these sensors has been more important. For example, we want to know if the temperature in our home is adequate, otherwise we want to turn on the heating (or cooling) system automatically and we want to be able to monitor the environment of the home or office remotely. The knowledge from these sensors and the ability to actuate devices, summon human assistance, and adjust contracts for electrical power, heating, cooling, etc. can facilitate a myriad of ways to improve the quality of our life and potentially even reduce resource consumption. This master?s thesis project created a gateway that sniffs wireless sensor traffic in order to collect data from existing sensors and to provide this data as input to various services. These sensors work in the 868 MHz band. Although these wireless sensors are frequently installed in homes and offices, they are generally not connected to any network. We designed a gateway capable of identifying these wireless sensors and decoding the received messages, despite the fact that these messages may use a vendor?s proprietary protocol. This gateway consists of a microcontroller, a radio transceiver (868-915 MHz), and an Ethernet controller. This gateway enables us to take advantage of all the data that can be captured. Thinking about these possibilities, imultaneously acquiring data from these various sensors could open a wide range of alternatives in different fields, such as home automation, industrial controlling? Not only can the received data be interesting by itself; but when different sensors are located in the same environment we can exploit this data using sensor fusion. For example, time differences in arrival and differences in signal strength as measured t multiple receivers could be used to locate objects. The final aim of this thesis project is to support diverse applications that could be developed using the new gateway. This gateway creates a bridge between the information that is already around us and our ability to realize many new potential services. A wide range of opportunities could be realized by exploiting the wireless sensors we already have close to us.[CASTELLÀ] El gran interés en el seguimiento de todo lo que nos rodea ha incrementado el número de sensores que utilizamos en nuestra vida diaria. Por otra parte, la evolución de la tecnología inalámbrica ha facilitado su instalación. Es en lugares como casas y oficinas donde el aprovechamiento de los datos de estos sensores ha sido más importante. Por ejemplo, si queremos saber si la temperatura en casa es la adecuada para activar el sistema de calefacción (o refrigeración) de forma automática. La capacidad para accionar dispositivos externos y ajustar los contratos de energía eléctrica, calefacción, refrigeración, etc. puede facilitar una gran variedad de formas de mejorar la calidad de nuestra vida y, potencialmente, incluso reducir el consumo de recursos. Este proyecto de tesis ha creado una gateway que detecta el tráfico de sensores inalámbricos con el fin de recoger datos de los sensores existentes y proporcionarlos como entrada a varios servicios. Estos sensores funcionan en la banda de 868 MHz. A pesar de que estos sensores inalámbricos son frecuentemente instalados en hogares y oficinas, generalmente no están conectados a ninguna red. Hemos diseñado una gateway capaz de identificar estos sensores inalámbricos y descodificar los mensajes recibidos, aunque estos mensajes pueden utilizar un protocolo exclusivo del propietario. Esta gateway consta de un microcontrolador, un transceptor de radio (868-915 MHz) y un controlador Ethernet. Esta gateway nos permite tomar ventaja de todos los datos que se pueden capturar. Pensando en todas estas posibilidades a la vez, la adquisición de los datos de estos diversos sensores podría abrir una amplia gama de alternativas en diferentes campos, como la automatización del hogar, control industrial ... No sólo los datos recibidos pueden ser interesantes, sino que los diferentes sensores que se encuentran en el mismo entorno pueden explotar estos datos mediante la fusión de sensores. Por ejemplo, las diferencias de tiempo en la llegada y las diferencias en intensidad de la señal, según lo que determina múltiples receptores también podría ser utilizado para localizar objetos. El objetivo final de este proyecto de tesis es dar apoyo a las diversas aplicaciones que pueden ser desarrolladas utilizando la nueva gateway. Esta gateway crea un puente entre la información que ya está a nuestro alrededor y nuestra capacidad de realizar muchos nuevos servicios potenciales. Una amplia gama de posibilidades puede ser generada mediante la explotación red de sensores inalámbricos que ya están presentes en nuestro alrededor.[CATALÀ] El gran interès en el seguiment de tot el que ens envolta ha incrementat el nombre de sensors que utilitzem en la nostra vida diària. D'altra banda, l'evolució de la tecnologia sense fils ha facilitat la seva instal·lació. És en llocs com cases i oficines on l'aprofitament de les dades d'aquests sensors ha estat més important. Per exemple, si volem saber si la temperatura a casa és l'adequada per activar el sistema de calefacció (o refrigeració) de forma automàtica. La capacitat per accionar dispositius externs i ajustar els contractes d'energia elèctrica, calefacció, refrigeració, etc. pot facilitar una gran varietat de formes de millorar la qualitat de la nostra vida i, potencialment, fins i tot reduir el consum de recursos. Aquest projecte de tesi ha creat una gateway que ensuma el tràfic de sensors sense fils amb la finalitat de recollir dades dels sensors existents i proporcionar-les com a entrada de diversos serveis. Aquests sensors funcionen a la banda de 868 MHz. Malgrat aquests sensors sense fils són sovint instal·lats en llars i oficines, generalment no estan connectats a cap xarxa. Hem dissenyat una gateway capaç d'identificar aquests sensors sense fil i descodificar el missatges rebuts, tot i que aquests missatges poden utilitzar un protocol exclusiu del propietari. Aquesta gateway consta d'un microcontrolador, un transceptor de ràdio (868-915 MHz) i un controlador Ethernet. Aquesta gateway ens permet prendre avantatge de totes les dades que es poden capturar. Pensant en totes aquestes possibilitats a la vegada, l'adquisició de les dades d'aquests diversos sensors podria obrir una àmplia gamma d'alternatives en diferents camps, com ara l'automatització de la llar, control industrial ... No només les dades rebudes poden ser interessants, sinó que els diferents sensors que es troben en el mateix entorn poden explotar aquestes dades mitjançant la fusió de sensors. Per exemple, les diferències de temps en l'arribada i les diferències en intensitat del senyal segons el que determina múltiples receptors també podria ser utilitzat per localitzar objectes. L'objectiu final d'aquest projecte de tesi és donar suport a les diverses aplicacions que poden ser desenvolupades utilitzant la nova gateway. Aquesta gateway crea un pont entre la informació que ja està al nostre voltant i la nostra capacitat de realitzar nous serveis potencials . Una àmplia gamma de possibilitats pot ser generada mitjançant l'explotació de la xarxa de sensors sense fils que ja tenim a prop nostre

    LEVERAGING OPENAIRINTERFACE AND SOFTWARE DEFINED RADIO TO ESTABLISH A LOW-COST 5G NON-STANDALONE ARCHITECTURE

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    Includes Supplementary MaterialCommercial cellular service providers are at the forefront of the paradigm shift from 4G Long Term Evolution (LTE) to 5G New Radio (NR). The increase in throughput, provisioning of ultra-low latency, and greater reliability of 5G enable potential uses that no other wireless communication could support. The Department of Defense (DOD) is interested in 5G NR technologies, but the implementation of the architecture can be lengthy and costly. This capstone configured a 4G LTE network and a 5G non-standalone network using OpenAirInterface and software defined radios (SDRs). Universal Subscriber Identity Module (USIM) cards were configured and introduced to user equipment and attached to the 4G LTE network. A gNodeB (gNB) was added to the 4G LTE network to establish the 5G non-standalone (NSA) network architecture (3GPP Option 3). The testbed developed in this research was able to connect the core to a commercial internet service provider and browse the internet using third-party applications. Our analysis educates future researchers on the challenges and lessons learned when implementing the OpenAirInterface 4G LTE and 5G NSA networks. This work also provides a better understanding of 4G LTE and 5G NSA OpenAirInterface software usability, flexibility, and scalability for potential use cases for the DOD.Chief Petty Officer, United States NavyApproved for public release. Distribution is unlimited

    Implementation and Performance Evaluation of Distributed Autonomous Multi-Hop Vehicle-to-Vehicle Communications over TV White Space

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    This paper presents design and experimental evaluation of a distributed autonomous multi-hop vehicle-to-vehicle (V2V) communication system over TV white space performed in Japan. We propose the two-layer control channel model, which consists of the Zone Aware Control Channel (ZACC) and the Swarm Aware Control Channel (SACC), to establish the multi-hop network. Several vehicles construct a swarm using location information shared through ZACC, and share route and channel information, and available white space information through SACC. To evaluate the system we carried out field experiments with swarm made of three vehicles in a convoy. The vehicles observe channel occupancy via energy detection and agree on the control and the data channels autonomously. For coarse synchronization of quiet periods for sensing we use GPS driven oscillators, and introduce a time margin to accommodate for remaining drift. When a primary user is detected in any of the borrowed channels, the vehicles switch to a vacant channel without disrupting the ongoing multi-hop communication. We present the experimental results in terms of the time to establish control channel, channel switching time, delivery ratio of control message exchange, and throughput. As a result, we showed that our implementation can provide efficient and stable multi-hop V2V communication by using dynamic spectrum access (DSA) techniques

    Development of a Software-Defined Underwater Acoustic Communication System

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    This report started with a brief history and recent development of underwater acoustic communication systems as well as software-defined radio technologies. Then, some challenges from underwater acoustic channels and available underwater acoustic communication modems are discussed. After finished introducing the basics of SDR and GNU Radio, a detailed description of implementing a software-defined acoustic communication system in GNU Radio are presented, along with some key concepts of the system. Then, some hardware specifications are presented, following by detailed documentation on a software-defined acoustic communication system experiment with a host computer, a USRP, an acoustic hydrophone, and a hydrophone. At the end of Section 4, the results of the experiment are discussed. Lastly, the conclusions of this report are made. Some possible directions for future work are suggested in Section 6

    An Investigation into Cognitive Radio System Performance

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    The objective of this thesis is to explore cognitive radio performance through an in-depth literature review and an implementation of a software-defined radio prototyping system. Specifically, this thesis investigates the spectrum-sensing aspect of cognitive radio by comparing two spectrum-sensing methods. It was found in the literature review that a system utilizing matched filter detection would provide higher probability of detection in low signal-to-noise ratio environments when compared to a system utilizing energy detection. These spectrum sensing methods were thus implemented and compared in the cognitive radio systems presented in this thesis. Additionally, experiments were conducted to determine the most efficient intervals for the spectrum sensing and cycle interval periods. Therefore, system performance was measured on the basis of probability of successful primary user signal detection and maximum throughput capabilities, quantified by bit error rate. It was found that a cognitive radio system based on matched filter detection was more robust, given that the transmitted signal of interest was previously known. However, compared to a system based on energy detection, the implementation of the matched filter required more complex algorithms and computational power. These results are consistent with the findings in the literature review

    A Comparative Analysis of IEEE 802.15.4 Adapters for Wireless Range Finding

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    ZigBee wireless networks have become increasingly prevalent over the past decade. Based on the IEEE 802.15.4 low data rate wireless standard, ZigBee offers low-cost mesh connectivity in hospitals, refineries, building automation, and critical infrastructure. This thesis explores two ZigBee Received Signal Strength Indicator (RSSI)-based rangefinding tool sets used for assessing wireless network security: Z-Ranger and Zbfind. Z-Ranger is a new tool set developed herein for the Microchip Zena Wireless Adapter that offers configurable distance estimating parameters and a RSSI resolution of 256 values. Zbfind is an application developed for the Atmel RZUSBstick with no configurable distance estimating parameters and a RSSI resolution of 29 values. The two tool sets are evaluated while rangefinding four low-rate wireless devices indoors and two devices outdoors. Mean error is calculated at each of the 35 collection points and a 99% confidence interval and p-Test are used to identify statistically significant deviations between the two tool sets
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