Implementazione e valutazione delle prestazioni di algoritmi di localizzazione Indoor basati su dispositivi Beacon

Questo elaborato di tesi ha lo scopo di illustrare un'applicazione realizzata per dispositivi Android in grado di localizzare l'utente all'interno di un ambiente indoor sfruttando l'utilizzo dei Beacon e dare una valutazione dei risultati ottenuti. L'utente potrà registrare i dispositivi Beacon in suo possesso all'interno dell'applicazione, caricare la planimetria di un ambiente e configurarlo indicando esattamente quale Beacon si trova in una determinata posizione. Infine potrà scegliere quale tra i tre algoritmi implementati (Prossimità, Triangolazione e Fingerprinting) utilizzare per visualizzare la propria posizione sulla mappa. I tre algoritmi sono stati sottoposti a vari test che hanno permesso di analizzare le differenze tra di essi in termini di accuratezza e le performance generali dell'applicativo.

Soluções de controlo de dispositivos para automação residencial

Nos últimos anos temos assistido ao aparecimento de novos dispositivos inteligentes e sistemas de automação residencial. Com o objetivo de conectar e controlar equi- pamentos eletrónicos, dentro de uma habitação, existe a necessidade de desenvolver soluções integradas de controlo remoto. Os smartphones, apresentam todas as carac- terísticas, poder computacional e portabilidade, ideais para controlo e monitorização deste tipo de dispositivos. Quando se considera o desenvolvimento de um produto novo e dependendo do problema, escolher a abordagem e tecnologias mais adequadas nem sempre é fácil. Este projeto apresenta um conjunto de tecnologias e soluções de controlo baseadas em arquiteturas móveis. Para prova de conceito, e baseado num sistema real (IVIT), é proposta uma solução inovadora usando um smartphone. O IVIT, desenvolve uma tecnologia para aplicar num reservatório de aquecimento de água de inércia variável, com funcionalidades de monitorização, controlo e operação colaborativa do sistema de aquecimento. Os resultados obtidos comprovaram que o desempenho da aplicação ultrapassou as expectativas e que a solução proposta é uma alternativa viável para o controlo de dispositivos para automação residencial usando smartphones.

Publicidade em celulares utilizando o sistema de busca de perfil

ARAÚJO, B. G. ; VALENTIM, R. A. M. . Publicidade em celulares utilizando o sistema de busca de perfil. Holos, Natal,v. 1, p. 109-118, 2010. Disponível em:

Esineiden internetin verkkostandardit älykodissa

Tutkielman tavoitteena on esitellä esineiden internetin kokonaisuutta ja tutkia siellä käytettäviä langattomia verkkostandardeja sekä niiden käyttöä älykodissa. Esineiden internetin soveltamisalueet jakautuvat älykodin, teollisuuden ja yhteiskunnan osa-alueisiin. Näistä älykotia käsitellään tutkielmassa tarkemmin. Työssä selvitetään, mitkä ovat esineiden internetin yleisimmät langattomat verkkostandardit ja niiden ominaisuudet. Lisäksi selvitetään, mistä osista älykoti koostuu, mitkä ovat soveltamisalueet ja miten älykoti toimii. Vertailukohteina käytetään kahden suuren elektroniikkavalmistajan, Samsungin ja LG:n, älykotiratkaisuja. Tutkielmassa esitellään esineiden internetin määritelmä, sen historiaa ja käyttökohteita, jotta saadaan yleiskuva esineiden internetin kokonaisuudesta. Tämän jälkeen syvennytään langattomiin verkkostandardeihin, jotka ovat keskeisesti käytössä esineiden internetissä. Kyseiset verkkostandardit ovat Bluetooth, Bluetooth Low Energy, NFC, Wi-Fi, Zigbee ja 6LoWPAN. Lopuksi käsitellään älykotia ja sen ominaisuuksia. Samalla tutkitaan Samsungin ja LG:n älykotilaitteita ja pohditaan niiden toimivuutta. Lisäksi pohditaan verkkostandardien käyttöä älykodeissa sekä esineiden internetin ja älylaitteiden vaikutuksia ihmisiin. Lopputuloksena todetaan, että Wi-Fi, Bluetooth ja Zigbee ovat yleisimmät älykodin verkkostandardit ja että ainoastaan yksi verkkostandardi ei tällä hetkellä riitä monipuolisen älykodin kaikkia toimintoja varten. Vertailussa huomataan Samsungin älykotiratkaisun olevan kehityksessä LG:tä edellä.

Exercit@rt mobile : monitorização da reabilitação respiratória na DPOC

A prevalência estimada da Doença Pulmonar Obstrutiva Crónica (DPOC) em Portugal é de 14,2% para indivíduos com idade superior a 45 anos (cerca de 800.000 indivíduos), sendo mais prevalente no sexo masculino (Observatório Nacional das Doenças Respiratórias, 2014). Com o aparecimento de soluções baseadas em novas modalidades de eHealth e mHealth surgiram novas formas de acompanhamento e monitorização das doenças crónicas, nomeadamente da DPOC. É neste contexto que foi desenvolvida a aplicação mobile Exercit@rt, em parceria com a Escola Superior de Saúde da Universidade de Aveiro e em continuidade com outros estudos do MCMM anteriormente desenvolvidos. A aplicação permite monitorizar, em tempo real, através da utilização de um oxímetro Bluetooth, os níveis de batimento cardíaco e saturação de oxigénio dos pacientes com DPOC. Com esta aplicação os pacientes podem realizar diversos exercícios de fisioterapia respiratória assim como atividades físicas de vida diária que podem ser monitorizadas, georreferenciadas e avaliadas. Para além do desenvolvimento da aplicação mobile, a presente investigação integrou ainda uma etapa de validação que contou com a participação de dez pacientes com doenças do foro respiratório – cinco utilizadores que utilizam/têm smartphone (UTS) e cinco utilizadores não utilizam/não têm smartphone (NUNTS). A cada um destes foram propostas tarefas a realizar na aplicação mobile, estando previsto que a aplicação estivesse apta para qualquer participante. A totalidade dos participantes reconheceu a utilidade da aplicação no controlo da sua doença.

A Mobile High Sensitivity On-field Organophosphorous Compounds Detecting System for IoT Based Food Safety Tracking

Food safety has always been a social issue that draws great public attention. With the rapid development of wireless communication technologies and intelligent devices, more and more Internet of Things (IoT) systems are applied in the food safety tracking field. However, connection between things and information system is usually established by pre-storing information of things into RFID Tag, which is inapplicable for on-field food safety detection. Therefore, considering pesticide residue is one of the severe threaten to food safety, a new portable, high-sensitivity, low-power, on-field organophosphorus (OP) compounds detection system is proposed in this thesis to realize the on-field food safety detection. The system is designed based on optical detection method by using a customized photo-detection sensor. A Micro Controller Unit (MCU) and a Bluetooth Low Energy (BLE) module are used to quantize and transmit detection result. An Android Application (APP) is also developed for the system to processing and display detection result as well as control the detection process. Besides, a quartzose sample container and black system box are also designed and made for the system demonstration. Several optimizations are made in wireless communication, circuit layout, Android APP and industrial design to realize the mobility, low power and intelligence.

Flexible Sensor for Wearable Vital Sign Monitoring System

In modern society, the body health is a very important issue to everyone. With the development of the science and technology, the new and developed body health monitoring device and technology will play the key role in the daily medical activities. This paper focus on making progress in the design of the wearable vital sign system. A vital sign monitoring system has been proposed and designed. The whole detection system is composed of signal collecting subsystem, signal processing subsystem, short-range wireless communication subsystem and user interface subsystem. The signal collecting subsystem is composed of light source and photo diode, after emiting light of two different wavelength, the photo diode collects the light signal reflected by human body tissue. The signal processing subsystem is based on the analog front end AFE4490 and peripheral circuits, the collected analog signal would be filtered and converted into digital signal in this stage. After a series of processing, the signal would be transmitted to the short-range wireless communication subsystem through SPI, this subsystem is mainly based on Bluetooth 4.0 protocol and ultra-low power System on Chip(SoC) nRF51822. Finally, the signal would be transmitted to the user end. After proposing and building the system, this paper focus on the research of the key component in the system, that is, the photo detector. Based on the study of the perovskite materials, a low temperature processed photo detector has been proposed, designed and researched. The device is made up of light absorbing layer, electron transporting and hole blocking layer, hole transporting and electron blocking layer, conductive substrate layer and metal electrode layer. The light absorbing layer is the important part of whole device, and it is fabricated by perovskite materials. After accepting the light, the electron-hole pair would be produced in this layer, and due to the energy level difference, the electron and hole produced would be transmitted to metal electrode and conductive substrate electrode through electron transporting layer and hole transporting layer respectively. In this way the response current would be produced. Based on this structure, the specific fabrication procedure including substrate cleaning; PEDOT:PSS layer preparation; pervoskite layer preparation; PCBM layer preparation; C60, BCP, and Ag electrode layer preparation. After the device fabrication, a series of morphological characterization and performance testing has been done. The testing procedure including film-forming quality inspection, response current and light wavelength analysis, linearity and response time and other optical and electrical properties testing. The testing result shows that the membrane has been fabricated uniformly; the device can produce obvious response current to the incident light with the wavelength from 350nm to 800nm, and the response current could be changed along with the light wavelength. When the light wavelength keeps constant, there exists a good linear relationship between the intensity of the response current and the power of the incident light, based on which the device could be used as the photo detector to collect the light information. During the changing period of the light signal, the response time of the device is several microseconds, which is acceptable working as a photo detector in our system. The testing results show that the device has good electronic and optical properties, and the fabrication procedure is also repeatable, the properties of the devices has good uniformity, which illustrates the fabrication method and procedure could be used to build the photo detector in our wearable system. Based on a series of testing results, the paper has drawn the conclusion that the photo detector fabricated could be integrated on the flexible substrate and is also suitable for the monitoring system proposed, thus made some progress on the research of the wearable monitoring system and device. Finally, some future prospect in system design aspect and device design and fabrication aspect are proposed.

Publicidade em celulares utilizando o sistema de busca de perfil

ARAÚJO, B. G. ; VALENTIM, R. A. M. . Publicidade em celulares utilizando o sistema de busca de perfil. Holos, Natal,v. 1, p. 109-118, 2010. Disponível em:

No. 9 - Enero/Junio 2007 / SISTEMAS y TELEMATICA

Contiene: Planificación de una red DVB-H en entorno urbano David Gómez Barquero, Ariana Salieto Alexis P. García, José F. Monserrat, Narcís Cardona Incorporación de la habilidad de coordinación y del módulo de personalización de sesiones al simulador de otorrinolaringología Wesst-OT Lina María Hurtado, Oscar Darío Ramírez Mauricio Castrillón S., Angélica María Ospina C. Francisco J. Herrera Botero Andrés A. Navarro Newball, Jorge A. Vélez Beltrán GenLeNa: Sistema para la construcción de Aplicaciones de Generación de Lenguaje Natural Gloria Johanna Chala T. Rafael Armando Jordán O. Diego Luis Linares Programación básica para adolescentes Guillermo Londoño Acosta Gustavo Adolfo Paz Loboguerrero Análisis de interferencia entre las tecnologías inalámbricas Bluetooth e IEEE 802.11g Fabio Guerrero Oliver Cardona Miguel Fuertes Teoría de Sistemas: Visión trascendental de Sistemas y Espiritualidad Ricardo Schnitzler

Utilising presence in places to support mobile interaction

Physical places are given contextual meaning by the objects and people that make up the space. Presence in physical places can be utilised to support mobile interaction by making access to media and notifications on a smartphone easier and more visible to other people. Smartphone interfaces can be extended into the physical world in a meaningful way by anchoring digital content to artefacts, and interactions situated around physical artefacts can provide contextual meaning to private manipulations with a mobile device. Additionally, places themselves are designed to support a set of tasks, and the logical structure of places can be used to organise content on the smartphone. Menus that adapt the functionality of a smartphone can support the user by presenting the tools most likely to be needed just-in-time, so that information needs can be satisfied quickly and with little cognitive effort. Furthermore, places are often shared with people whom the user knows, and the smartphone can facilitate social situations by providing access to content that stimulates conversation. However, the smartphone can disrupt a collaborative environment, by alerting the user with unimportant notifications, or sucking the user in to the digital world with attractive content that is only shown on a private screen. Sharing smartphone content on a situated display creates an inclusive and unobtrusive user experience, and can increase focus on a primary task by allowing content to be read at a glance. Mobile interaction situated around artefacts of personal places is investigated as a way to support users to access content from their smartphone while managing their physical presence. A menu that adapts to personal places is evaluated to reduce the time and effort of app navigation, and coordinating smartphone content on a situated display is found to support social engagement and the negotiation of notifications. Improving the sensing of smartphone users in places is a challenge that is out-with the scope of this thesis. Instead, interaction designers and developers should be provided with low-cost positioning tools that utilise presence in places, and enable quantitative and qualitative data to be collected in user evaluations. Two lightweight positioning tools are developed with the low-cost sensors that are currently available: The Microsoft Kinect depth sensor allows movements of a smartphone user to be tracked in a limited area of a place, and Bluetooth beacons enable the larger context of a place to be detected. Positioning experiments with each sensor are performed to highlight the capabilities and limitations of current sensing techniques for designing interactions with a smartphone. Both tools enable prototypes to be built with a rapid prototyping approach, and mobile interactions can be tested with more advanced sensing techniques as they become available. Sensing technologies are becoming pervasive, and it will soon be possible to perform reliable place detection in-the-wild. Novel interactions that utilise presence in places can support smartphone users by making access to useful functionality easy and more visible to the people who matter most in everyday life.

Routex: un Router Multitecnologia per Internet of Things

L'Internet of Things (IoT) è oggetto di grande interesse per la ricerca e per l'industria. Le numerose tecnologie che sono state sviluppate rendono possibile la creazione di nuovi e utili servizi, ma introducono problemi legati alla reciproca incompatibilità. Nell'elaborato si analizza nel dettaglio questa situazione e si descrive l'implementazione di un sistema che ha come obiettivo la realizzazione di una rete composta da dispositivi che fanno uso di tecnologie differenti. Il progetto usa un Raspberry Pi come router, il cui scopo è quello di gestire le differenze fra gli standard di comunicazione utilizzati. Le tecnologie wireless supportate sono: WiFi, Bluetooth, ZigBee, nRF24L01 e moduli radio 433MHz. Sulla rete cosi formata è inoltre possibile lo sviluppo di applicazioni IoT, grazie alle logiche di funzionamento messe a disposizione dal sistema.

Sistema di navigazione aumentata per Smart Glasses

Questa tesi si pone come obiettivo di arricchire l’applicazione per dispositivi Android creata da OpenTripPlanner, aggiungendo funzionalità di navigazione aumentata, rendendola utilizzabile da Smart Glasses. L’utente sarà guidato a passo a passo nel percorso grazie a informazioni visive e uditive sulle direzioni da prendere. L’applicazione può essere personalizzata per l’utente che la sta utilizzando grazie alla possibilità di inserire le proprie generalità e informazioni, utili per calcolare le calorie bruciate dall’utente durante il tragitto. All’applicazione l’utente può anche connettere, tramite Bluetooth, un mi band. In questo modo, una volta raggiunta la destinazione prescelta l’utente può avere informazioni sul numero di passi effettuati durante il tragitto e le calorie bruciate.

Wireless solutions for the industrial internet of things

The fourth industrial revolution is paving the way for Industrial Internet of Things applications where industrial assets (e.g., robotic arms, valves, pistons) are equipped with a large number of wireless devices (i.e., microcontroller boards that embed sensors and actuators) to enable a plethora of new applications, such as analytics, diagnostics, monitoring, as well as supervisory, and safety control use-cases. Nevertheless, current wireless technologies, such as Wi-Fi, Bluetooth, and even private 5G networks, cannot fulfill all the requirements set up by the Industry 4.0 paradigm, thus opening up new 6G-oriented research trends, such as the use of THz frequencies. In light of the above, this thesis provides (i) a broad overview of the main use-cases, requirements, and key enabling wireless technologies foreseen by the fourth industrial revolution, and (ii) proposes innovative contributions, both theoretical and empirical, to enhance the performance of current and future wireless technologies at different levels of the protocol stack. In particular, at the physical layer, signal processing techniques are being exploited to analyze two multiplexing schemes, namely Affine Frequency Division Multiplexing and Orthogonal Chirp Division Multiplexing, which seem promising for high-frequency wireless communications. At the medium access layer, three protocols for intra-machine communications are proposed, where one is based on LoRa at 2.4 GHz and the others work in the THz band. Different scheduling algorithms for private industrial 5G networks are compared, and two main proposals are described, i.e., a decentralized scheme that leverages machine learning techniques to better address aperiodic traffic patterns, and a centralized contention-based design that serves a federated learning industrial application. Results are provided in terms of numerical evaluations, simulation results, and real-world experiments. Several improvements over the state-of-the-art were obtained, and the description of up-and-running testbeds demonstrates the feasibility of some of the theoretical concepts when considering a real industry plant.

Hybrid ground-aerial mesh networks for IoT monitoring applications: network design and software platform development

The Internet of Things (IoT) has grown rapidly in recent years, leading to an increased need for efficient and secure communication between connected devices. Wireless Sensor Networks (WSNs) are composed of small, low-power devices that are capable of sensing and exchanging data, and are often used in IoT applications. In addition, Mesh WSNs involve intermediate nodes forwarding data to ensure more robust communication. The integration of Unmanned Aerial Vehicles (UAVs) in Mesh WSNs has emerged as a promising solution for increasing the effectiveness of data collection, as UAVs can act as mobile relays, providing extended communication range and reducing energy consumption. However, the integration of UAVs and Mesh WSNs still poses new challenges, such as the design of efficient control and communication strategies. This thesis explores the networking capabilities of WSNs and investigates how the integration of UAVs can enhance their performance. The research focuses on three main objectives: (1) Ground Wireless Mesh Sensor Networks, (2) Aerial Wireless Mesh Sensor Networks, and (3) Ground/Aerial WMSN integration. For the first objective, we investigate the use of the Bluetooth Mesh standard for IoT monitoring in different environments. The second objective focuses on deploying aerial nodes to maximize data collection effectiveness and QoS of UAV-to-UAV links while maintaining the aerial mesh connectivity. The third objective investigates hybrid WMSN scenarios with air-to-ground communication links. One of the main contribution of the thesis consists in the design and implementation of a software framework called "Uhura", which enables the creation of Hybrid Wireless Mesh Sensor Networks and abstracts and handles multiple M2M communication stacks on both ground and aerial links. The operations of Uhura have been validated through simulations and small-scale testbeds involving ground and aerial devices.

Design of a wearable platform for PPG analysis with multicore low-power processor

Photoplethysmography (PPG) sensors allow for noninvasive and comfortable heart-rate (HR) monitoring, suitable for compact wearable devices. However, PPG signals collected from such devices often suffer from corruption caused by motion artifacts. This is typically addressed by combining the PPG signal with acceleration measurements from an inertial sensor. Recently, different energy-efficient deep learning approaches for heart rate estimation have been proposed. To test these new solutions, in this work, we developed a highly wearable platform (42mm x 48 mm x 1.2mm) for PPG signal acquisition and processing, based on GAP9, a parallel ultra low power system-on-chip featuring nine cores RISC-V compute cluster with neural network accelerator and 1 core RISC-V controller. The hardware platform also integrates a commercial complete Optical Biosensing Module and an ARM-Cortex M4 microcontroller unit (MCU) with Bluetooth low-energy connectivity. To demonstrate the capabilities of the system, a deep learning-based approach for PPG-based HR estimation has been deployed. Thanks to the reduced power consumption of the digital computational platform, the total power budget is just 2.67 mW providing up to 5 days of operation (105 mAh battery).