385 research outputs found
Surfing the Internet-of-Things: lightweight access and control of wireless sensor networks using industrial low power protocols
Internet-of-Things (IoT) is emerging to play an important role in the continued advancement of information and communication technologies. To accelerate industrial application developments, the use of web services for networking applications is seen as important in IoT communications. In this paper, we present a RESTful web service architecture for energy-constrained wireless sensor networks (WSNs) to enable remote data collection from sensor devices in WSN nodes. Specifically, we consider both IPv6 protocol support in WSN nodes as well as an integrated gateway solution to allow any Internet clients to access these nodes.We describe the implementation of a prototype system, which demonstrates the proposed RESTful approach to collect sensing data from a WSN. A performance evaluation is presented to illustrate the simplicity and efficiency of our proposed scheme
MONICA in Hamburg: Towards Large-Scale IoT Deployments in a Smart City
Modern cities and metropolitan areas all over the world face new management
challenges in the 21st century primarily due to increasing demands on living
standards by the urban population. These challenges range from climate change,
pollution, transportation, and citizen engagement, to urban planning, and
security threats. The primary goal of a Smart City is to counteract these
problems and mitigate their effects by means of modern ICT to improve urban
administration and infrastructure. Key ideas are to utilise network
communication to inter-connect public authorities; but also to deploy and
integrate numerous sensors and actuators throughout the city infrastructure -
which is also widely known as the Internet of Things (IoT). Thus, IoT
technologies will be an integral part and key enabler to achieve many
objectives of the Smart City vision.
The contributions of this paper are as follows. We first examine a number of
IoT platforms, technologies and network standards that can help to foster a
Smart City environment. Second, we introduce the EU project MONICA which aims
for demonstration of large-scale IoT deployments at public, inner-city events
and give an overview on its IoT platform architecture. And third, we provide a
case-study report on SmartCity activities by the City of Hamburg and provide
insights on recent (on-going) field tests of a vertically integrated,
end-to-end IoT sensor application.Comment: 6 page
Evolving SDN for Low-Power IoT Networks
Software Defined Networking (SDN) offers a flexible and scalable architecture
that abstracts decision making away from individual devices and provides a
programmable network platform. However, implementing a centralized SDN
architecture within the constraints of a low-power wireless network faces
considerable challenges. Not only is controller traffic subject to jitter due
to unreliable links and network contention, but the overhead generated by SDN
can severely affect the performance of other traffic. This paper addresses the
challenge of bringing high-overhead SDN architecture to IEEE 802.15.4 networks.
We explore how traditional SDN needs to evolve in order to overcome the
constraints of low-power wireless networks, and discuss protocol and
architectural optimizations necessary to reduce SDN control overhead - the main
barrier to successful implementation. We argue that interoperability with the
existing protocol stack is necessary to provide a platform for controller
discovery and coexistence with legacy networks. We consequently introduce
{\mu}SDN, a lightweight SDN framework for Contiki, with both IPv6 and
underlying routing protocol interoperability, as well as optimizing a number of
elements within the SDN architecture to reduce control overhead to practical
levels. We evaluate {\mu}SDN in terms of latency, energy, and packet delivery.
Through this evaluation we show how the cost of SDN control overhead (both
bootstrapping and management) can be reduced to a point where comparable
performance and scalability is achieved against an IEEE 802.15.4-2012 RPL-based
network. Additionally, we demonstrate {\mu}SDN through simulation: providing a
use-case where the SDN configurability can be used to provide Quality of
Service (QoS) for critical network flows experiencing interference, and we
achieve considerable reductions in delay and jitter in comparison to a scenario
without SDN
Security Management for The Internet of Things
The expansion of Internet connected automation provides a number of opportunities and applications that were not imaginable before. A prominent example is the Internet of things (IoT). IoT is a network system that consists of many wired or wireless smart sensors and applications. The development of IoT has been taking decades. However, cyberattacks threat the IoT since the day it was born; different threats and attacks may cause serious disasters to the network system without the essential security protection. Thus, the security and the management of the IoT security system become quite significant. This research work into security management of IoT involves five sections. We first point out the conception and background of the IoT. Then, the security requirements for the IoT have been discussed intensively. Next a proposed layered-security management architecture has been outlined and described. An example of how conveniently this proposed architecture can be used to come up with the security management for a network of the IoT is explained in detail. Finally, summarise the results of implementing the proposed security functions architecture to obtain the efficient and strong security in an IoT environment
A critical analysis of research potential, challenges and future directives in industrial wireless sensor networks
In recent years, Industrial Wireless Sensor Networks (IWSNs) have emerged as an important research theme with applications spanning a wide range of industries including automation, monitoring, process control, feedback systems and automotive. Wide scope of IWSNs applications ranging from small production units, large oil and gas industries to nuclear fission control, enables a fast-paced research in this field. Though IWSNs offer advantages of low cost, flexibility, scalability, self-healing, easy deployment and reformation, yet they pose certain limitations on available potential and introduce challenges on multiple fronts due to their susceptibility to highly complex and uncertain industrial environments. In this paper a detailed discussion on design objectives, challenges and solutions, for IWSNs, are presented. A careful evaluation of industrial systems, deadlines and possible hazards in industrial atmosphere are discussed. The paper also presents a thorough review of the existing standards and industrial protocols and gives a critical evaluation of potential of these standards and protocols along with a detailed discussion on available hardware platforms, specific industrial energy harvesting techniques and their capabilities. The paper lists main service providers for IWSNs solutions and gives insight of future trends and research gaps in the field of IWSNs
A Survey on Layer-Wise Security Attacks in IoT: Attacks, Countermeasures, and Open-Issues
© 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).Security is a mandatory issue in any network, where sensitive data are transferred safely in the required direction. Wireless sensor networks (WSNs) are the networks formed in hostile areas for different applications. Whatever the application, the WSNs must gather a large amount of sensitive data and send them to an authorized body, generally a sink. WSN has integrated with Internet-of-Things (IoT) via internet access in sensor nodes along with internet-connected devices. The data gathered with IoT are enormous, which are eventually collected by WSN over the Internet. Due to several resource constraints, it is challenging to design a secure sensor network, and for a secure IoT it is essential to have a secure WSN. Most of the traditional security techniques do not work well for WSN. The merger of IoT and WSN has opened new challenges in designing a secure network. In this paper, we have discussed the challenges of creating a secure WSN. This research reviews the layer-wise security protocols for WSN and IoT in the literature. There are several issues and challenges for a secure WSN and IoT, which we have addressed in this research. This research pinpoints the new research opportunities in the security issues of both WSN and IoT. This survey climaxes in abstruse psychoanalysis of the network layer attacks. Finally, various attacks on the network using Cooja, a simulator of ContikiOS, are simulated.Peer reviewe
Deploying RIOT operating system on a reconfigurable Internet of Things end-device
Dissertação de mestrado integrado em Engenharia Eletrónica Industrial e ComputadoresThe Internet of Everything (IoE) is enabling the connection of an infinity of
physical objects to the Internet, and has the potential to connect every single
existing object in the world. This empowers a market with endless opportunities
where the big players are forecasting, by 2020, more than 50 billion connected
devices, representing an 8 trillion USD market.
The IoE is a broad concept that comprises several technological areas and will
certainly, include more in the future. Some of those already existing fields are the
Internet of Energy related with the connectivity of electrical power grids, Internet
of Medical Things (IoMT), for instance, enables patient monitoring, Internet of
Industrial Things (IoIT), which is dedicated to industrial plants, and the Internet
of Things (IoT) that focus on the connection of everyday objects (e.g. home
appliances, wearables, transports, buildings, etc.) to the Internet.
The diversity of scenarios where IoT can be deployed, and consequently the
different constraints associated to each device, leads to a heterogeneous network
composed by several communication technologies and protocols co-existing on the
same physical space. Therefore, the key requirements of an IoT network are
the connectivity and the interoperability between devices. Such requirement is
achieved by the adoption of standard protocols and a well-defined lightweight network
stack. Due to the adoption of a standard network stack, the data processed
and transmitted between devices tends to increase. Because most of the devices
connected are resource constrained, i.e., low memory, low processing capabilities,
available energy, the communication can severally decrease the device’s performance.
Hereupon, to tackle such issues without sacrificing other important requirements,
this dissertation aims to deploy an operating system (OS) for IoT, the
RIOT-OS, while providing a study on how network-related tasks can benefit from
hardware accelerators (deployed on reconfigurable technology), specially designed
to process and filter packets received by an IoT device.O conceito Internet of Everything (IoE) permite a conexão de uma infinidade
de objetos à Internet e tem o potencial de conectar todos os objetos existentes no
mundo. Favorecendo assim o aparecimento de novos mercados e infinitas possibilidades,
em que os grandes intervenientes destes mercados preveem até 2020 a
conexão de mais de 50 mil milhões de dispositivos, representando um mercado de
8 mil milhões de dólares.
IoE é um amplo conceito que inclui várias áreas tecnológicas e irá certamente
incluir mais no futuro. Algumas das áreas já existentes são: a Internet of Energy
relacionada com a conexão de redes de transporte e distribuição de energia à
Internet; Internet of Medical Things (IoMT), que possibilita a monotorização de
pacientes; Internet of Industrial Things (IoIT), dedicada a instalações industriais
e a Internet of Things (IoT), que foca na conexão de objetos do dia-a-dia (e.g.
eletrodomésticos, wearables, transportes, edifícios, etc.) à Internet.
A diversidade de cenários à qual IoT pode ser aplicado, e consequentemente,
as diferentes restrições aplicadas a cada dispositivo, levam à criação de uma rede
heterogénea composto por diversas tecnologias de comunicação e protocolos a coexistir
no mesmo espaço físico. Desta forma, os requisitos chave aplicados às redes
IoT são a conectividade e interoperabilidade entre dispositivos. Estes requisitos
são atingidos com a adoção de protocolos standard e pilhas de comunicação bem
definidas. Com a adoção de pilhas de comunicação standard, a informação processada
e transmitida entre dispostos tende a aumentar. Visto que a maioria dos
dispositivos conectados possuem escaços recursos, i.e., memória reduzida, baixa
capacidade de processamento, pouca energia disponível, o aumento da capacidade
de comunicação pode degradar o desempenho destes dispositivos.
Posto isto, para lidar com estes problemas e sem sacrificar outros requisitos importantes,
esta dissertação pretende fazer o porting de um sistema operativo IoT,
o RIOT, para uma solução reconfigurável, o CUTE mote. O principal objetivo
consiste na realização de um estudo sobre os benefícios que as tarefas relacionadas
com as camadas de rede podem ter ao serem executadas em hardware via aceleradores
dedicados. Estes aceleradores são especialmente projetados para processar
e filtrar pacotes de dados provenientes de uma interface radio em redes IoT periféricas
Internet protocol over wireless sensor networks, from myth to reality
Internet Protocol (IP) is a standard network layer protocol of the Internet architecture, allowing communication among heterogeneous networks. For a given network to be accessible from the Internet it must have a router that complies with this protocol. Wireless sensor networks have many smart sensing nodes with computational, communication and sensing capabilities. Such smart sensors cooperate to gather relevant data and present it to the user. The connection of sensor networks and the Internet has been realized using gateway or proxy- based approaches. Historically, several routing protocols were specifically created, discarding IP. However, recent research, prototypes and even implementation tools show that it is possible to combine the advantages of IP access with sensor networks challenges, with a major contribution from the 6LoWPAN Working Group. This paper presents the advantages and challenges of IP on sensor networks, surveys the state-of-art with some implementation examples, and points further research topics in this area
Internet of Things-aided Smart Grid: Technologies, Architectures, Applications, Prototypes, and Future Research Directions
Traditional power grids are being transformed into Smart Grids (SGs) to
address the issues in existing power system due to uni-directional information
flow, energy wastage, growing energy demand, reliability and security. SGs
offer bi-directional energy flow between service providers and consumers,
involving power generation, transmission, distribution and utilization systems.
SGs employ various devices for the monitoring, analysis and control of the
grid, deployed at power plants, distribution centers and in consumers' premises
in a very large number. Hence, an SG requires connectivity, automation and the
tracking of such devices. This is achieved with the help of Internet of Things
(IoT). IoT helps SG systems to support various network functions throughout the
generation, transmission, distribution and consumption of energy by
incorporating IoT devices (such as sensors, actuators and smart meters), as
well as by providing the connectivity, automation and tracking for such
devices. In this paper, we provide a comprehensive survey on IoT-aided SG
systems, which includes the existing architectures, applications and prototypes
of IoT-aided SG systems. This survey also highlights the open issues,
challenges and future research directions for IoT-aided SG systems
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