708 research outputs found
New Secure IoT Architectures, Communication Protocols and User Interaction Technologies for Home Automation, Industrial and Smart Environments
Programa Oficial de Doutoramento en Tecnoloxías da Información e das Comunicacións en Redes Móbiles. 5029V01Tese por compendio de publicacións[Abstract]
The Internet of Things (IoT) presents a communication network where heterogeneous
physical devices such as vehicles, homes, urban infrastructures or industrial machinery
are interconnected and share data. For these communications to be successful, it is
necessary to integrate and embed electronic devices that allow for obtaining environmental
information (sensors), for performing physical actuations (actuators) as well as
for sending and receiving data (network interfaces).
This integration of embedded systems poses several challenges. It is needed for these
devices to present very low power consumption. In many cases IoT nodes are powered by
batteries or constrained power supplies. Moreover, the great amount of devices needed in
an IoT network makes power e ciency one of the major concerns of these deployments,
due to the cost and environmental impact of the energy consumption. This need for low
energy consumption is demanded by resource constrained devices, con
icting with the
second major concern of IoT: security and data privacy. There are critical urban and
industrial systems, such as tra c management, water supply, maritime control, railway
control or high risk industrial manufacturing systems such as oil re neries that will
obtain great bene ts from IoT deployments, for which non-authorized access can posse
severe risks for public safety. On the other hand, both these public systems and the
ones deployed on private environments (homes, working places, malls) present a risk for
the privacy and security of their users. These IoT deployments need advanced security
mechanisms, both to prevent access to the devices and to protect the data exchanged
by them.
As a consequence, it is needed to improve two main aspects: energy e ciency of IoT
devices and the use of lightweight security mechanisms that can be implemented by
these resource constrained devices but at the same time guarantee a fair degree of
security.
The huge amount of data transmitted by this type of networks also presents another
challenge. There are big data systems capable of processing large amounts of data,
but with IoT the granularity and dispersion of the generated information presents a
new scenario very di erent from the one existing nowadays. Forecasts anticipate that there will be a growth from the 15 billion installed devices in 2015 to more than 75
billion devices in 2025. Moreover, there will be much more services exploiting the data
produced by these networks, meaning the resulting tra c will be even higher. The
information must not only be processed in real time, but data mining processes will
have to be performed to historical data.
The main goal of this Ph.D. thesis is to analyze each one of the previously described
challenges and to provide solutions that allow for an adequate adoption of IoT in
Industrial, domestic and, in general, any scenario that can obtain any bene t from the
interconnection and
exibility that IoT brings.[Resumen]
La internet de las cosas (IoT o Internet of Things) representa una red de intercomunicaciones
en la que participan dispositivos físicos de toda índole, como vehículos,
viviendas, electrodomésticos, infraestructuras urbanas o maquinaria y dispositivos industriales.
Para que esta comunicación se pueda llevar a cabo es necesario integrar
elementos electr onicos que permitan obtener informaci on del entorno (sensores), realizar
acciones f sicas (actuadores) y enviar y recibir la informaci on necesaria (interfaces de
comunicaciones de red).
La integración y uso de estos sistemas electrónicos embebidos supone varios retos. Es
necesario que dichos dispositivos presenten un consumo reducido. En muchos casos
deberían ser alimentados por baterías o fuentes de alimentación limitadas. Además,
la gran cantidad de dispositivos que involucra la IoT hace necesario que la e ciencia
energética de los mismos sea una de las principales preocupaciones, por el coste e
implicaciones medioambientales que supone el consumo de electricidad de los mismos.
Esta necesidad de limitar el consumo provoca que dichos dispositivos tengan unas
prestaciones muy limitadas, lo que entra en conflicto con la segunda mayor preocupación
de la IoT: la seguridad y privacidad de los datos. Por un lado existen sistemas críticos
urbanos e industriales, como puede ser la regulación del tráfi co, el control del suministro
de agua, el control marítimo, el control ferroviario o los sistemas de producción industrial
de alto riesgo, como refi nerías, que son claros candidatos a benefi ciarse de la IoT, pero
cuyo acceso no autorizado supone graves problemas de seguridad ciudadana. Por otro
lado, tanto estos sistemas de naturaleza publica, como los que se desplieguen en entornos
privados (viviendas, entornos de trabajo o centros comerciales, entre otros) suponen
un riesgo para la privacidad y también para la seguridad de los usuarios. Todo esto
hace que sean necesarios mecanismos de seguridad avanzados, tanto de acceso a los
dispositivos como de protección de los datos que estos intercambian.
En consecuencia, es necesario avanzar en dos aspectos principales: la e ciencia energética de los dispositivos y el uso de mecanismos de seguridad e ficientes, tanto
computacional como energéticamente, que permitan la implantación de la IoT sin
comprometer la seguridad y la privacidad de los usuarios. Por otro lado, la ingente cantidad de información que estos sistemas puede llegar
a producir presenta otros dos retos que deben ser afrontados. En primer lugar, el
tratamiento y análisis de datos toma una nueva dimensión. Existen sistemas de big
data capaces de procesar cantidades enormes de información, pero con la internet de
las cosas la granularidad y dispersión de los datos plantean un escenario muy distinto
al actual. La previsión es pasar de 15.000.000.000 de dispositivos instalados en 2015
a más de 75.000.000.000 en 2025. Además existirán multitud de servicios que harán
un uso intensivo de estos dispositivos y de los datos que estos intercambian, por lo
que el volumen de tráfico será todavía mayor. Asimismo, la información debe ser
procesada tanto en tiempo real como a posteriori sobre históricos, lo que permite
obtener información estadística muy relevante en diferentes entornos.
El principal objetivo de la presente tesis doctoral es analizar cada uno de estos retos
(e ciencia energética, seguridad, procesamiento de datos e interacción con el usuario)
y plantear soluciones que permitan una correcta adopción de la internet de las cosas
en ámbitos industriales, domésticos y en general en cualquier escenario que se pueda
bene ciar de la interconexión y
flexibilidad de acceso que proporciona el IoT.[Resumo]
O internet das cousas (IoT ou Internet of Things) representa unha rede de intercomunicaci
óns na que participan dispositivos físicos moi diversos, coma vehículos, vivendas,
electrodomésticos, infraestruturas urbanas ou maquinaria e dispositivos industriais.
Para que estas comunicacións se poidan levar a cabo é necesario integrar elementos
electrónicos que permitan obter información da contorna (sensores), realizar accións
físicas (actuadores) e enviar e recibir a información necesaria (interfaces de comunicacións
de rede).
A integración e uso destes sistemas electrónicos integrados supón varios retos. En
primeiro lugar, é necesario que estes dispositivos teñan un consumo reducido. En
moitos casos deberían ser alimentados por baterías ou fontes de alimentación limitadas.
Ademais, a gran cantidade de dispositivos que se empregan na IoT fai necesario que a
e ciencia enerxética dos mesmos sexa unha das principais preocupacións, polo custo e
implicacións medioambientais que supón o consumo de electricidade dos mesmos. Esta
necesidade de limitar o consumo provoca que estes dispositivos teñan unhas prestacións
moi limitadas, o que entra en con
ito coa segunda maior preocupación da IoT: a
seguridade e privacidade dos datos. Por un lado existen sistemas críticos urbanos e
industriais, como pode ser a regulación do tráfi co, o control de augas, o control marítimo,
o control ferroviario ou os sistemas de produción industrial de alto risco, como refinerías,
que son claros candidatos a obter benefi cios da IoT, pero cuxo acceso non autorizado
supón graves problemas de seguridade cidadá. Por outra parte tanto estes sistemas de
natureza pública como os que se despreguen en contornas privadas (vivendas, contornas
de traballo ou centros comerciais entre outros) supoñen un risco para a privacidade e
tamén para a seguridade dos usuarios. Todo isto fai que sexan necesarios mecanismos
de seguridade avanzados, tanto de acceso aos dispositivos como de protección dos datos
que estes intercambian.
En consecuencia, é necesario avanzar en dous aspectos principais: a e ciencia enerxética
dos dispositivos e o uso de mecanismos de seguridade re cientes, tanto computacional
como enerxéticamente, que permitan o despregue da IoT sen comprometer a seguridade
e a privacidade dos usuarios.
Por outro lado, a inxente cantidade de información que estes sistemas poden chegar
a xerar presenta outros retos que deben ser tratados. O tratamento e a análise de
datos toma unha nova dimensión. Existen sistemas de big data capaces de procesar
cantidades enormes de información, pero coa internet das cousas a granularidade e
dispersión dos datos supón un escenario moi distinto ao actual. A previsión e pasar
de 15.000.000.000 de dispositivos instalados no ano 2015 a m ais de 75.000.000.000 de
dispositivos no ano 2025. Ademais existirían multitude de servizos que farían un uso
intensivo destes dispositivos e dos datos que intercambian, polo que o volume de tráfico
sería aínda maior. Do mesmo xeito a información debe ser procesada tanto en tempo
real como posteriormente sobre históricos, o que permite obter información estatística
moi relevante en diferentes contornas.
O principal obxectivo da presente tese doutoral é analizar cada un destes retos
(e ciencia enerxética, seguridade, procesamento de datos e interacción co usuario) e
propor solucións que permitan unha correcta adopción da internet das cousas en ámbitos
industriais, domésticos e en xeral en todo aquel escenario que se poda bene ciar da
interconexión e
flexibilidade de acceso que proporciona a IoT
Big Data and the Internet of Things
Advances in sensing and computing capabilities are making it possible to
embed increasing computing power in small devices. This has enabled the sensing
devices not just to passively capture data at very high resolution but also to
take sophisticated actions in response. Combined with advances in
communication, this is resulting in an ecosystem of highly interconnected
devices referred to as the Internet of Things - IoT. In conjunction, the
advances in machine learning have allowed building models on this ever
increasing amounts of data. Consequently, devices all the way from heavy assets
such as aircraft engines to wearables such as health monitors can all now not
only generate massive amounts of data but can draw back on aggregate analytics
to "improve" their performance over time. Big data analytics has been
identified as a key enabler for the IoT. In this chapter, we discuss various
avenues of the IoT where big data analytics either is already making a
significant impact or is on the cusp of doing so. We also discuss social
implications and areas of concern.Comment: 33 pages. draft of upcoming book chapter in Japkowicz and Stefanowski
(eds.) Big Data Analysis: New algorithms for a new society, Springer Series
on Studies in Big Data, to appea
Green IoT: sustainability environment and technologies
The Internet of Things (IoT) connects everyone in the smart world, so the energy consumption of IoT technology is a challenging and attractive research area. The development of technology in the field of IoT has changed the way of life and enriched society with its benefits, but we must not ignore the fact that IoT consumes energy, contributes to toxic pollution, and generates electrical waste. To increase the benefits and reduce the harmfulness of IoT, there are increasing tendencies to move towards green IoT (G-IoT). The G-IoT is considered the future environmentally friendly IoT. Greening ICT technology plays a key role in G-IoT and promises many benefits to society such as efficient production, and reducing the energy used to design and distribute ICT devices and equipment. This paper will present a comprehensive overview of G-IoT technologies and strategies that demonstrate work and efforts to build a green and smart world, contributing to a safe and healthy environment, smart and high quality of life based on enabling technologies, reducing pollution, and reducing energy consumption. ICT technologies that enable G-IoT include Green RFID, Green Wireless Sensor Network (GWSN), Green Cloud Computing (GCC), Green M2M (G-M2M), and Green Data Center (GDC). The paper will also present an analysis of the importance of environmental technology processes in sustainable development, exploring the principles and roles of G-IoT in the progress of society through examining its potential for improving quality of life, environment, economic growth, and green global modernization
The Economics of Internet of Things: An Information Market System
The Internet of Things (IoT) is one of the leading forces in modern-day technology. The concept has been proposed to be a new way of interconnecting a multiplicity of devices and rendering services to a variety of applications. According to the industry’s insiders, IoT will make it possible to link transport, energy, smart cities, and healthcare together. The purpose of this paper is to understand the economics of the Internet of Things. It is meant to shed light on how world IoT applications can affect the information market. When every sector and industry of the world has been connected via this technology, what will become of the ICT niche? The information economic approach is currently being adopted and presented with its possible applications in IoT. Firstly, this paper reviews the kinds of economic models that have been designed for IoT services. Secondly, it focuses on the two major subject matters of information economics that are critical to IoT. While one considers the value of the information itself, the other addresses information with good pricing. Lastly, the paper proposes a game-theoretic model to examine the price competition of IoT-based services. We take a look at how these two sectors will fare against each, both at full capacity
A Review on Internet of Things (IoT): Security and Privacy Requirements and the Solution Approaches
The world is undergoing a dramatic rapid transformation from isolated systems to ubiquitous Internet-based-enabled 2018;things2019; capable of interacting each other and generating data that can be analyzed to extract valuable information. This highly interconnected global network structure known as Internet of Things will enrich everyone2019;s life, increase business productivity, improve government efficiency, and the list just goes on. However, this new reality (IoT) built on the basis of Internet, contains new kind of challenges from a security and privacy perspective. Traditional security primitives cannot be directly applied to IoT technologies due to the different standards and communication stacks involved. Along with scalability and heterogeneity issues, major part of IoT infrastructure consists of resource constrained devices such as RFIDs and wireless sensor nodes. Therefore, a flexible infrastructure is required capable to deal with security and privacy issues in such a dynamic environment. This paper presents an overview of IoT, security and privacy challenges and the existing security solutions and identifying some open issues for future research
Information management in Reverse logistics
This paper presents an overview of challenges related to information management in reverse logistics and an overview of selected disruptive technologies (Internet of Things, Blockchain, Cloud computing and Artificial intelligence) that improve information management and information flow in the reverse logistics chain. The theoretical background of reverse logistics and selected disruptive technologies is provided. The goal of this paper is to research how information management in reverse logistics can be improved through the use of disruptive technologies. The research problem results from increased costs and insufficient prediction accuracy in the reverse logistics chain
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