Rede sem fios de microcontroladores com acesso remoto aplicada à domótica

Dissertação apresentada na Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa para obtenção do Grau de Mestre em Engenharia Electrotécnica e de Computadores

Pentagonal parch-excited sectorized antenna for localization systems

A pentagonal patch-excited sectorized antenna (SA) suitable for 2.4-2.5 GHz localization systems was studied and developed. The integration of six patch-excited structures converges into a sectorized antenna called Hive5 that provides gain improvement compared to a patch antenna, maximum variation of 3 dB beam width over the radiation pattern and circular polarization (CP). This antenna is presented and analyzed taking into account the tap length and the flare angle. The proposed antenna in combination with a RF-Switch provides a cost effective solution for localization based on Wireless Sensor Networks (WSN) and will be used for implementing angle of arrival (AoA) techniques combined with RF fingerprinting techniques.

Estudio de sincronización cooperativa en redes de sensores

En este informe se estudia cómo es posible utilizar redes de sensores inalámbricos (WSN), para la localización de determinados eventos. Se hace un estudio previo de cómo una red de sensores puede llegar a estar sincronizada de una manera cooperativa, interactuando todos los sensores de la red entre sí. Primero se realiza el estudio para la sincronización de dos sensores con frecuencias diferentes, viéndose los parámetros que intervienen para que esta sincronización se realice con éxito, y también los efectos que en ella se produce al añadirle ruido. Seguidamente, se realiza el estudio para la sincronización de redes de N sensores, de manera que interactúen entre ellos de forma cooperativa. Se observan las características de la sincronización cuando todos los sensores llegan a consenso y, después, se busca la forma para que el consenso tienda hacia un valor determinado por mutuo acuerdo de los sensores. Finalmente, a partir de las características obtenidas en el consenso de N sensores, se realiza una aplicación práctica para la localización de eventos por medio del consenso de estas redes de sensores inalámbricos.

Détection de la retransmission sélective sur les réseaux de capteurs

L'attaque de retransmission sélective est une menace sérieuse dans les réseaux de capteurs sans fil (WSN), en particulier dans les systèmes de surveillance. Les noeuds peuvent supprimer de manière malicieuse certains paquets de données sensibles, ce qui risque de détruire la valeur des données assemblées dans le réseau et de diminuer la disponibilité des services des capteurs. Nous présentons un système de sécurité léger basé sur l'envoi de faux rapports pour identifier les attaques de retransmission sélective après avoir montré les inconvénients des systèmes existants. Le grand avantage de notre approche est que la station de base attend une séquence de faux paquets à un moment précis sans avoir communiqué avec les noeuds du réseau. Par conséquent, elle sera capable de détecter une perte de paquets. L'analyse théorique montre que le système proposé peut identifier ce type d'attaque et peut alors améliorer la robustesse du réseau dans des conditions d'un bon compromis entre la fiabilité de la sécurité et le coût de transmission. Notre système peut atteindre un taux de réussite élevé d‟identification face à un grand nombre de noeuds malicieux, tandis que le coût de transmission peut être contrôlé dans des limites raisonnables.

Desenvolvimento de sistemas embarcados para redes de sensores e atuadores sem fio aplicadas em unidades de elevação de petróleo do tipo Plunger-Lift

The Wireless Sensor Networks (WSN) methods applied to the lifting of oil present as an area with growing demand technical and scientific in view of the optimizations that can be carried forward with existing processes. This dissertation has as main objective to present the development of embedded systems dedicated to a wireless sensor network based on IEEE 802.15.4, which applies the ZigBee protocol, between sensors, actuators and the PLC (Programmable Logic Controller), aiming to solve the present problems in the deployment and maintenance of the physical communication of current elevation oil units based on the method Plunger-Lift. Embedded systems developed for this application will be responsible for acquiring information from sensors and control actuators of the devices present at the well, and also, using the Modbus protocol to make this network becomes transparent to the PLC responsible for controlling the production and delivery information for supervisory SISAL

Abordagem dirigida a modelos para redes de sensores sem fio

Research on Wireless Sensor Networks (WSN) has evolved, with potential applications in several domains. However, the building of WSN applications is hampered by the need of programming in low-level abstractions provided by sensor OS and of specific knowledge about each application domain and each sensor platform. We propose a MDA approach do develop WSN applications. This approach allows domain experts to directly contribute in the developing of applications without needing low level knowledge on WSN platforms and, at the same time, it allows network experts to program WSN nodes to met application requirements without specific knowledge on the application domain. Our approach also promotes the reuse of the developed software artifacts, allowing an application model to be reused across different sensor platforms and a platform model to be reused for different applications

Midgard: um middleware baseado em componentes e orientado a recursos para redes de sensores sem fio

On the last years, several middleware platforms for Wireless Sensor Networks (WSN) were proposed. Most of these platforms does not consider issues of how integrate components from generic middleware architectures. Many requirements need to be considered in a middleware design for WSN and the design, in this case, it is possibility to modify the source code of the middleware without changing the external behavior of the middleware. Thus, it is desired that there is a middleware generic architecture that is able to offer an optimal configuration according to the requirements of the application. The adoption of middleware based in component model consists of a promising approach because it allows a better abstraction, low coupling, modularization and management features built-in middleware. Another problem present in current middleware consists of treatment of interoperability with external networks to sensor networks, such as Web. Most current middleware lacks the functionality to access the data provided by the WSN via the World Wide Web in order to treat these data as Web resources, and they can be accessed through protocols already adopted the World Wide Web. Thus, this work presents the Midgard, a component-based middleware specifically designed for WSNs, which adopts the architectural patterns microkernel and REST. The microkernel architectural complements the component model, since microkernel can be understood as a component that encapsulates the core system and it is responsible for initializing the core services only when needed, as well as remove them when are no more needed. Already REST defines a standardized way of communication between different applications based on standards adopted by the Web and enables him to treat WSN data as web resources, allowing them to be accessed through protocol already adopted in the World Wide Web. The main goals of Midgard are: (i) to provide easy Web access to data generated by WSN, exposing such data as Web resources, following the principles of Web of Things paradigm and (ii) to provide WSN application developer with capabilities to instantiate only specific services required by the application, thus generating a customized middleware and saving node resources. The Midgard allows use the WSN as Web resources and still provide a cohesive and weakly coupled software architecture, addressing interoperability and customization. In addition, Midgard provides two services needed for most WSN applications: (i) configuration and (ii) inspection and adaptation services. New services can be implemented by others and easily incorporated into the middleware, because of its flexible and extensible architecture. According to the assessment, the Midgard provides interoperability between the WSN and external networks, such as web, as well as between different applications within a single WSN. In addition, we assessed the memory consumption, the application image size, the size of messages exchanged in the network, and response time, overhead and scalability on Midgard. During the evaluation, the Midgard proved satisfies their goals and shown to be scalable without consuming resources prohibitively

QK-Means: A clustering technique based on community detection and K-Means for deployment of cluster head nodes

Wireless Sensor Networks (WSN) are a special kind of ad-hoc networks that is usually deployed in a monitoring field in order to detect some physical phenomenon. Due to the low dependability of individual nodes, small radio coverage and large areas to be monitored, the organization of nodes in small clusters is generally used. Moreover, a large number of WSN nodes is usually deployed in the monitoring area to increase WSN dependability. Therefore, the best cluster head positioning is a desirable characteristic in a WSN. In this paper, we propose a hybrid clustering algorithm based on community detection in complex networks and traditional K-means clustering technique: the QK-Means algorithm. Simulation results show that QK-Means detect communities and sub-communities thus lost message rate is decreased and WSN coverage is increased. © 2012 IEEE.

Roteamento multicamada baseado em eficiência energética e qualidade de enlace para redes de sensores sem fio

A pesquisa apresentada nesta dissertação descreve a elaboração de um protocolo de roteamento para aplicações de Redes de Sensores Sem Fio (RSSF) em cidade inteligentes com forte restrição de energia e alta densidade de nodos. Através do estudo dos principais objetivos da comunicação de dados e do levantamento do estado-da-arte sobre os protocolos de roteamento e tecnologias para RSSF, a proposta contempla requisitos como: vazão de dados, confiabilidade de entrega e eficiência energética. A pesquisa apresenta em detalhes o protocolo AODV (Ad hoc On Demand Distance Vector), bem como sua relevância no contexto de RSSF devido a sua popularidade entre as plataformas de dispositivos comercializados. Além disso, são apresentados protocolos derivados do AODV, e a ausência de uma proposta robusta capaz de contemplar os requisitos levantados. O protocolo REL (Routing by Energy and Link Quality) é o resultado da pesquisa levantada e a proposta de solução para roteamento plano sob demanda baseado em eficiência energética e qualidade de enlace para prover um roteamento escalável, capaz de realizar balanceamento de carga e prolongar o tempo de vida da rede. O protocolo REL foi avaliado através de simulação e tesbed, a fim de garantir validação da proposta em ambiente real de escala reduzida e simulado de alta densidade. Os resultados mostraram que o protocolo REL apresenta considerável melhoria de entrega de dados através da escolha de enlaces confiáveis de transmissão e menos suscetíveis a erro, além de moderado consumo de energia capaz de prolongar o tempo de vida da rede, evitando a saturação prematura de nodos.

Otimização de cobertura, consumo de energia, roteamento e agregação de dados em rede de sensores sem fio utilizando algoritmos genéticos e lógica fuzzy

As Redes de Sensores Sem Fio possuem capacidades limitadas de processamento, armazenamento, comunicação (largura de banda) e fonte de energia, além de possuírem características e requisitos básicos de uma RSSF como: necessidade de se auto-organizar, comunicação com difusão de curto alcance e roteamento com múltiplos saltos. Neste trabalho é proposto uma ferramenta que otimize o posicionamento e os pacotes entregues através do uso de Algoritmo Genético (AG). Para solucionar o problema de roteamento que melhore o consumo de energia e maximize a agregação de dados é proposto a utilização de lógica fuzzy no protocolo de roteamento Ad hoc Ondemand Distance Vector (AODV). Esta customização é intitulada AODV – Fuzzy for Wireless Sensor Networks (AODV-FWSN). Os resultados mostram que a solução proposta é eficiente e consegue prolongar a vida útil da RSSF e melhorar a taxa de entrega de dados quando comparado com soluções similares.

Comunicación robusta punto a punto con módulos embebidos de radio frecuencia XBee

Máster Universitario en Sistemas Inteligentes y Aplicaciones Numéricas en Ingeniería (SIANI)

Redes y servicios ubicuos para Internet de las Cosas en dispositivos llevables

En las últimas décadas se han producido importantes avances tecnológicos, lo que ha producido un crecimiento importante de las Redes Inalámbricas de Sensores (RIS), conocidas en inglés como Wireless Sensor Networks (WSN). Estas redes están formadas por un conjunto de pequeños nodos o también, conocidos como motas, compuestos por diversos tipos de sensores. Las Redes Inalámbricas de Sensores pueden resultar muy útiles en entornos donde el despliegue de redes cableadas, formadas por ordenadores, encaminadores u otros dispositivos de red no sea posible. Sin embargo, este tipo de redes presentan una serie de carencias o problemas que dificultan, en ocasiones, su implementación y despliegue. Este Proyecto Fin de Carrera tiene como principales objetivos: diseñar e implementar un agente que haga uso de la tecnología Bluetooth para que se pueda comunicar tanto con la arquitectura orientada a servicios, vía radio, como con el módulo Bioharness para obtener parámetros fisiológicos; ofrecer una serie de servicios simples a la Red Inalámbrica de Sensores; diseñar un algoritmo para un sistema de alarmas; realizar e implementar una pasarela entre protocolos que usen el estándar IEEE802.15.4 (ZigBee) y el estándar IEEE802.15.1 de la Tecnología Bluetooth. Por último, implementar una aplicación Android para el reloj WiMM y que este pueda recibir alarmas en tiempo real a través del la Interfaz Bluetooth. Para lograr estos objetivos, en primer lugar realizaremos un estudio del Estado del Arte de las Redes Inalámbricas de Sensores, con el fin de estudiar su arquitectura, el estándar Bluetooth y los dispositivos Bluetooth que se han utilizado en este Proyecto. Seguidamente, describiremos detalladamente el firmware iWRAP versión 4, centrándonos en sus modos de operación, comandos AT y posibles errores que puedan ocurrir. A continuación, se describirá la arquitectura y la especificación nSOM, para adentrarnos en la arquitectura orientada a servicios. Por último, ejecutaremos la fase de validación del sistema y se analizarán los resultados obtenidos durante la fase de pruebas. ABSTRACT In last decades there have been significant advances in technology, which has resulted in important growth of Wireless Sensor Networks (WSN). These networks consist of a small set of nodes, also known as spots; equipped with various types of sensors. Wireless Sensor Networks can be very useful in environments where deployment of wired networks, formed by computers, routers or other network devices is not possible. However, these networks have a number of shortcomings or challenges to, sometimes, their implementation and deployment. The main objectives of this Final Project are to design and implement an agent that makes use of Bluetooth technology so you can communicate with both the service-oriented architecture, via radio, as with Bioharness module for physiological parameters; offer simple services to Wireless Sensor Network, designing an algorithm for an alarm system, make and implement a gateway between protocols using the standard IEEE802.15.4 (ZigBee) and IEEE802.15.1 standard Bluetooth Technology. Finally, implement an Android application for WiMM watch that can receive real-time alerts through the Bluetooth interface. In order to achieve these objectives, firstly we are going to carry out a study of the State of the Art in Wireless Sensor Network, where we study the architecture, the Bluetooth standard and Bluetooth devices that have been used in this project. Then, we will describe in detail the iWRAP firmware version 4, focusing on their operation modes, AT commands and errors that may occur. Therefore, we will describe the architecture and specification nSOM, to enter into the service-oriented architecture. Finally, we will execute the phase of validation of the system in a real application scenario, analyzing the results obtained during the testing phase.

Distributed target tracking based on belief propagation consensus

Distributed target tracking in wireless sensor networks (WSN) is an important problem, in which agreement on the target state can be achieved using conventional consensus methods, which take long to converge. We propose distributed particle filtering based on belief propagation (DPF-BP) consensus, a fast method for target tracking. According to our simulations, DPF-BP provides better performance than DPF based on standard belief consensus (DPF-SBC) in terms of disagreement in the network. However, in terms of root-mean square error, it can outperform DPF-SBC only for a specific number of consensus iterations.

Propuesta de aplicación de una red de sensores en emergencias

El auge y evolución de los sistemas de comunicaciones móviles y de las redes inalámbricas avanzadas, sucedido desde principios del siglo XXI, han propiciado el uso de Redes de Sensores Inalámbricos (RSI) en múltiples ámbitos de interés. Dichas redes están típicamente compuestas por dispositivos inalámbricos autónomos que incorporan sensores para la recogida de datos de distinta naturaleza. Las RSI se caracterizan por su escalabilidad, ausencia de cableado, pequeño tamaño, bajo consumo, gran variedad de magnitudes físico/químicas medibles, entre otras, cuyas cualidades las hace muy interesantes para su aplicación en multitud de escenarios de la Sociedad de la Información, tales como domótica, agricultura y ganadería, medioambiente, salud, procesos industriales, logística, seguridad o ciudades inteligentes, ente otras. En este Trabajo Fin de Máster, se propone el uso de las RSI en el escenario de Emergencias donde cobra gran importancia la usabilidad, la fiabilidad, la disponibilidad, y la robustez de los sistemas a emplear en condiciones hostiles, especialmente en las de bomberos. Es por ello que se analizarán previamente los trabajos de RSI desarrollados para estos entornos y que sugieren qué aplicaciones garantizan el cumplimiento de los requerimientos mencionados. Se aborda la utilización de una primera RSI para la monitorización ambiental de tres Centros de Procesado de Datos (CPD) del departamento de TI de Emergencias, siendo este un entorno sin movilidad, más controlado y que aporta la adquisición de experiencia en la utilización de las RSI de cara a un entorno móvil más complejo. A continuación, para el entorno móvil se ha desarrollado y validado un prototipo experimental de RSI para el seguimiento de salida de parques de bomberos de vehículos con su dotación. Así mismo se implementa un prototipo para la ayuda a la localización de bomberos y/o personas en un siniestro. Estas RSI se desarrollan e implantan en el entorno de Emergencias del Ayuntamiento de Madrid, entidad sin cuyo apoyo habría sido imposible la aplicación práctica de este trabajo. SUMMARY. The rise and evolution of mobile communication systems and advanced wireless networks in early XXI century have allowed to taking advantage of Wireless Sensor Networks (WSN). These networks are composed of independent wireless devices that incorporate sensors for collecting data of different nature. The WSN is characterized by its scalability, no wiring, small size, low power consumption, wide range of physical magnitudes measurable, among others. These qualities make them very interesting for application in many scenarios to the Information Society, such as, domotic, agriculture, smart environment, ehealth, industrial control, logistics, security and smart cities, among others. This work proposes to use WSN in the emergency scenario where is very important the usability, reliability, availability, and robustness of the systems to be used in hostile conditions, especially in fire-fighters environment. That is why WSN works in emergency will be studied to tackle what applications compliance with the above requirements. The first WSN developed will be environmental monitoring of three CPDs IT department Emergency. This scenario is a non-mobile environment, more controlled and bring gaining experience in the use of WSN to face mobile environment which is more complex. Then, for the mobile environment is developed an experimental prototype of WSN for tracking fire vehicles living fire stations with their equipment. Another prototype is foreseen to be implemented to assist fire-fighters location and / or people in a disaster. These WSN are developed and implemented for Madrid City Emergency, whose involvement was critical to put this research into stage.

Sistema de selección automática de soluciones tecnológicas de seguridad

Desde la aparición de Internet, hace ya más de 20 años ha existido por parte de diversos sectores de la sociedad, científicos, empresas, usuarios, etc. la inquietud por la aplicación de esta tecnología a lo que se ha dado en llamar “El Internet de las Cosas”, que no es más que el control a distancia de cualquier elemento útil o necesario para la vida cotidiana y la industria. Sin embargo el desarrollo masivo de aplicaciones orientadas a esto, no ha evolucionado hasta que no se han producido avances importantes en dos campos: por un lado, en las Redes Inalámbricas de Sensores (WSN), redes compuestas por un conjunto de pequeños dispositivos capaces de transmitir la información que recogen, haciéndola llegar desde su propia red inalámbrica, a otras de amplia cobertura y por otro con la miniaturización cada vez mayor de dispositivos capaces de tener una autonomía suficiente como para procesar datos e interconectarse entre sí. Al igual que en las redes de ordenadores convencionales, las WSN se pueden ver comprometidas en lo que a seguridad se refiere, ya que la masiva implementación de estas redes hará que millones de Terabytes de datos, muchas veces comprometidos o sometidos a estrictas Leyes de protección de los mismos, circulen en la sociedad de la información, de forma que lo que nace como una ventaja muy interesante para sus usuarios, puede convertirse en una pesadilla debido a la amenaza constante hacia los servicios mínimos de seguridad que las compañías desarrolladoras han de garantizar a los usuarios de sus aplicaciones. Éstas, y con el objetivo de proveer un ámbito de seguridad mínimo, deben de realizar un minucioso estudio de la aplicación en particular que se quiere ofrecer con una WSN y también de las características específicas de la red ya que, al estar formadas por dispositivos prácticamente diminutos, pueden tener ciertas limitaciones en cuanto al tamaño de la batería, capacidad de procesamiento, memoria, etc. El presente proyecto desarrolla una aplicación, única, ya que en la actualidad no existe un software con similares características y que aporta un avance importante en dos campos principalmente: por un lado ayudará a los usuarios que deseen desplegar una aplicación en una red WSN a determinar de forma automática cuales son los mecanismos y servicios específicos de seguridad que se han de implementar en dicha red para esa aplicación concreta y, por otro lado proporcionará un apoyo extra a expertos de seguridad que estén investigando en la materia ya que, servirá de plataforma de pruebas para centralizar la información sobre seguridad que se tengan en ese momento en una base de conocimientos única, proporcionando también un método útil de prueba para posibles escenarios virtuales. ABSTRACT. It has been more than 20 years since the Internet appeared and with it, scientists, companies, users, etc. have been wanted to apply this technology to their environment which means to control remotely devices, which are useful for the industry or aspects of the daily life. However, the huge development of these applications oriented to that use, has not evolve till some important researches has been occurred in two fields: on one hand, the field of the Wireless Sensor Networks (WSN) which are networks composed of little devices that are able to transmit the information that they gather making it to pass through from their wireless network to other wider networks and on the other hand with the increase of the miniaturization of the devices which are able to work in autonomous mode so that to process data and connect to each other. WSN could be compromised in the matter of security as well as the conventional computer networks, due to the massive implementation of this kind of networks will cause that millions of Terabytes of data will be going around in the information society, thus what it is thought at first as an interesting advantage for people, could turn to be a nightmare because of the continuous threat to the minimal security services that developing companies must guarantee their applications users. These companies, and with the aim to provide a minimal security realm, they have to do a strict research about the application that they want to implement in one WSN and the specific characteristics of the network as they are made by tiny devices so that they could have certain limitations related to the battery, throughput, memory, etc. This project develops a unique application since, nowadays, there is not any software with similar characteristics and it will be really helpful in mainly two areas: on one side, it will help users who want to deploy an application in one WSN to determine in an automatically way, which ones security services and mechanisms are those which is necessary to implement in that network for the concrete application and, on the other side, it will provide an extra help for the security experts who are researching in wireless sensor network security so that ti will an exceptional platform in order to centralize information about security in the Wireless Sensor Networks in an exclusive knowledge base, providing at the same time a useful method to test virtual scenarios.