Layered smart grid architecture approach and field tests by ZigBee technology

This paper presents a layered Smart Grid architecture enhancing security and reliability, having the ability to act in order to maintain and correct infrastructure components without affecting the client service. The architecture presented is based in the core of well design software engineering, standing upon standards developed over the years. The layered Smart Grid offers a base tool to ease new standards and energy policies implementation. The ZigBee technology implementation test methodology for the Smart Grid is presented, and provides field tests using ZigBee technology to control the new Smart Grid architecture approach. (C) 2014 Elsevier Ltd. All rights reserved.

Sistema de localização indoor com base no protocolo ZIGBEE

Actualmente, os sistemas de localização são uma área em forte expansão sendo que para espaços exteriores existe uma grande variedade de sistemas de localização enquanto que para espaços interiores as soluções são mais escassas. Este trabalho apresenta o estudo e implementação de um sistema de localização indoor baseado no protocolo ZigBee, utilizando a informação da intensidade de sinal recebido (RSSI - Received Signal Strength Indication). Para a realização deste projecto foi necessário iniciar uma pesquisa mais pormenorizada do protocolo ZigBee. O dispositivo móvel a ser localizado é o módulo XBee Serie 2 que se baseia no mesmo protocolo. Posto isto, foi necessário efectuar um estudo sobre sistemas de localização existentes e analisar as técnicas de localização utilizadas para ambientes interiores. Desta forma utiliza-se neste projecto uma técnica que consiste na análise de fingerprinting, onde é criado um mapa com os valores RSSI para diferentes coordenadas do espaço físico. As intensidades de sinal recebido são relativas a dispositivos XBee instalados em pontos fixos de referência. Para calcular a localização do dispositivo móvel é utilizado o algoritmo K-NN (K- Nearest Neighbors) que permite estimar a posição aproximada do dispositivo móvel. Por último é descrito todo o desenvolvimento do projecto assim como a apresentação e discussão de resultados.

Sistema de comunicació sense fils utilitzant Zigbee per PDA

En aquest projecte es presenta el disseny i desenvolupament d'un conjunt d'interfícies per a un sistema de comunicació basat en l'estàndard Zigbee. El sistema està composat per una tarja que integra el mòdul Zigbee, un microcontrolador i una FPGA, que es vol controlar des d'un sistema Pocket PC a través del port SD. La implementació consta d’un driver SDIO per Windows CE 4.2, el controlador SDIO a la FPGA i l'enllaç de comunicació entre la FPGA i el microcontrolador.

ZigBee aplicado a la transmisión de datos de sensores biomédicos

Pensado en un ámbito de tecnología médica, el propósito principal es el de realizar un seguido de medidas en diferentes partes del cuerpo para establecer unos valores máximos que nos permitan detectar cuando un paciente empieza a padecer estrés. Para ello se necesita un proceso de medición y otro de transmisión de los datos. Es aquí donde aparece el trabajo realizado en el proyecto. “ZigBee aplicado a la transmisión de datos de sensores biomédicos” está pensado para realizar la tarea de transmisión de los datos desde que el sensor realiza la medida hasta que los datos son monitorizados y almacenados. En la memoria del proyecto podremos encontrar el estudio realizado al medio de transmisión inalámbrico utilizado (ZigBee), el análisis del kit eZ430-RF2500 compatible con el medio, y finalmente la implementación del proyecto. Todo este trabajo finalizará con la recepción satisfactoria de los datos medidos por nuestro sensor biomédico (oxímetro) en el aplicativo personal programado con Visual Basic.

Estudi i atac a les xarxes ZigBee

L'objectiu d'aquest article és mostrar les característiques essencials de dos protocols de xarxes de sensors -l'estàndard 802.15.4 i el protocol ZigBee-, així com les principals amenaces a les que estan exposats. Finalment, mitjançant un cas real i, com a prova de concepte, es mostra com deixar inhabilitat un node d'una xarxa que utilitza el protocol ZigBee.

Controlador de protocol Zigbee amb Servei de monitarització de dades (Dashboar) via web

Aquest projecte es desenvolupa a l'empresa DsetSolutions S.L “spin-off” de la Universitat de Gironanascuda l’any 2004 a iniciativa del grup de visió per Computador i Robòtica (VICOROB) de laUniversitat de Girona.Els objectius d'aquest projecte consisteixen en el disseny i desenvolupament d'un sistema demonitorització i anàlisi de dades de consum d'una instal•lació de monitorització (consum energètic,temperatura , etc.). Aquesta informació està recopilada i mesurada per dispositius que disposin delprotocol de comunicacions de baix consum i sense fils Zigbee, entre d'altres.Aquest projecte s'implementarà sobre el dispositiu tipus “gateway”, en concret el “ConnectPortX2Smart Energy” de l'empresa Digi.Com a punt i final, les dades s'envien a una passarel•la intermediària, que mitjançant “web service”viatgen a un servidor de DsetSolutions S.L, on es tracten i es mostren mitjançant un aplicatiu webd'una manera agradable al client. En aquest aplicatiu web hi ha una sèrie de gadgets que és on esdesenvolupa la segona part del projecte, una nova opció de visualització d'aquests.Un dels punts principals de la creació del projecte per part de l'empresa DsetSolutions S.L és lamillora econòmica d'una solució pròpia de l'empresa ja existent

ZigBee/ZigBee PRO security assessment based on compromised cryptographic keys

Sensor networks have many applications in monitoring and controlling of environmental properties such as sound, acceleration, vibration and temperature. Due to limitedresources in computation capability, memory and energy, they are vulnerable to many kinds of attacks. The ZigBee specification based on the 802.15.4 standard, defines a set of layers specifically suited to sensor networks. These layers support secure messaging using symmetric cryptographic. This paper presents two different ways for grabbing the cryptographic key in ZigBee: remote attack and physical attack. It also surveys and categorizes some additional attacks which can be performed on ZigBee networks: eavesdropping, spoofing, replay and DoS attacks at different layers. From this analysis, it is shown that some vulnerabilities still in the existing security schema in ZigBee technology.

ZigBee-verkot

Tässä opinnäytetyössä perehdytään ZigBee-verkkoprotokollaan, joka on lyhyen kantaman langaton tekniikka, jossa on pyritty pieneen virrankulutukseen ja halpoihin valmistuskustannuksiin. Työssä tehdään ZigBee-tekniikasta lyhyt suomenkielinen yhteenveto, jossa esitellään ZigBee-verkon perustoiminnot ja käytetyt termit. Tarkoituksena on, että työssä esitetyt asiat pystyy omaksumaan ilman aikaisempaa perehtymistä tietoliikennetekniikkaan ja langattomiin verkkoihin.

ZigBee-verkot ja evaluointilaitteen suunnittelu

In this thesis a closer look at ZigBee wireless network protocol was made and a ZigBee evaluation device was designed and built for testing it. ZigBee is a digital wireless network technology published in 2004, which was developed for wireless control and automation systems. It is based on the IEEE 802.15.4-2003 standard, and its aim was to create a reliable wireless networking protocol with secure data transmissions, low power consumption and low manufacturing costs. The low power consumption requirement has also led to a slow data rate and a short range, but in a ZigBee network individual network devices can route messages to each other, so short range is not a problem. In automation and control systems a fast data rate is not usually an important requirement either. ZigBee network can form automatically and one ZigBee network can theoretically include thousands of devices, all of which can communicate with each other. ZigBee network is also self-healing, so an individual device dropping out of the network, like breaking down, does not affect functionality of the network. Evaluation device was designed and implemented in four different versions, which were tested with six different antenna designs. All antennas were tested at a range of 100 meters in an open terrain using two different frequencies and transmission powers. Also a range test was performed for selected antennas using transmission power of 4,5 dBm, which was maximum power of the ZigBee chip used in the evaluation device. Range test resulted in a measured range of several hundred meters, which can be considered as a good result for a short-range technology.

Zigbee för längre avstånd

I dag går utvecklingen av trådlösa nätverk snabbt framåt. Zigbee är en helt ny teknik som bygger på IEEE 802-15-4 standarden. Zigbee utvecklades av the Zigbee Alliance som består av en rad stora elektronikföretag. Zigbee är en teknik som inriktar sig på låg energiförbrukning och låg kostnad. Tekniken är tänkt att användas för att ställa in och läsa av sensorer av olika slag. Denna rapport är ett resultat av ett examensarbete som går ut på att utreda om Zigbee tekniken kan användas för lite längre avstånd. Arbetet resulterade i två demoapplikationer för ett enkel zigbee system, och färdigskriven kod för en möjlighet att använda Zigbee för länge avstånd.

Development of heterogeneous node network using microcontroller with protocols CAN and Zigbee

In this paper was proposed the development of an heterogeneous system using the microcontroller (AT90CANI28) where the protocol model CAN and the standard IEEE 802.15.4 are connected. This module is able to manage and monitor sensors and actuators using CAN and, through the wireless standard 802.15.4, communicate with the other network modules. © 2011 IEEE.

Wireless sensor networks Zigbee applied on sewage treatment station

The good efficiency in a sewage treatment plant (WWTP) is a great importance to the environment. The management of electromechanical equipment installed in these stations is a major challenge due to the fact that they are installed on areas of difficult access and maintenance unhealthy and making the time for the correction of any faults is extended. This paper proposes the development of a Wireless Sensor Network (WSN), in order to monitor electromechanical equipment, allowing the Concessionaire a predictive control in real time. The design of a wireless sensors network for monitoring equipment requires not only the development and assembly of the sensor modules, but must also include the development of software for managing the data collected. Thus, this work includes a Zigbee WSN, small, adapted for monitoring of electromechanical equipment and environmental conditions of a WWTP, type stabilization pond, installed in an area of approximately 0.15 km 2 and the average flow of 320 liters of treatment per second. The experimental results show that this monitoring system can perform with the collection of parameters of performance and quality assessment at the station.

Evaluating serial ZigBee devices for application in wireless networked control systems

Networked control systems (NCS) are distributed control system where the sensors, actuators and controllers are physically separated and connected through communication networks. NCS represent the evolution of networked control architectures providing greater modularity and control decentralization, ease maintenance and diagnosis and lower cost of implementation. A recent trend in this research topic is the development of NCS using wireless networks (WNCS) enabling interoperability between existing wired and wireless systems. This paper evaluates a serial RS-232 ZigBee device as a wireless sensor link in NCS. In order to support this investigation, relevant performance metrics for wireless control applications such as jitter, time delay and messages lost are highlighted and calculated to evaluate the device capabilities. In addition the control performance of an implemented motor control system using the device is analyzed. Experimental results led to the conclusion that serial RS-232 ZigBee devices can be used to implement WNCS and the use of this device delay information in the PID controller discretization can improve the control performance of the system. © 2012 IEEE.

Modeling of state machines in VHDL for encapsulation of DNP3 Protocol in P2P ZigBee Network

Several countries have invested in technologies for Smart Grids. Among such protocols designed cover this area, highlights the DNP3 (Distributed Network Protocol version 3). Although the DNP3 be developed for operation over the serial interface, there is a trend in the literature to the use of other interfaces. The Zigbee wireless interface has become more popular in the industrial applications. In order to study the challenges of integrating of these two protocols, this article is presented the analysis of DNP3 protocol stack through state machines The encapsulation of DNP3 messages in P2P (point-to-point) ZigBee Network, may assist in the discovery and solution of failures of availability and security of this integration. The ultimate goal is to merge the features of DNP3 and Zigbee stacks, and display a solution that provides the benefits of wireless environment, without impairment of security required for Smart Grid applications.

Telemetria automotiva usando módulo de transmissão Wireless Zigbee

This paper presents a design and construct the system of data acquisition with wireless transmission of some important parameters like motor temperature, motor rotation and velocity of Unesp Racing´s formula car prototype from Universidade Estadual Paulista, Campus Guaratinguetá. This system development presents a contribution for the electrical technical features adding important points in the competition due car´s electric, in addition, enables preventive maintenance and fine adjustment of the car with the data obtained during training and racing