6,763 research outputs found
Chapter Securing the Home Energy Management Platform
Recently, many efforts have been done to chemically functionalize sensors surface to achieve selectivity towards diagnostics targets, such as DNA, RNA fragments and protein tumoural biomarkers, through the surface immobilization of the related specific receptor. Especially, some kind of sensors such as microcantilevers (gravimetric sensors) and one-dimensional photonics crystals (optical sensors) able to couple Bloch surface waves are very sensitive. Thus, any kind of surface modifications devoted to functionalize them has to be finely controlled in terms of mass and optical characteristics, such as refractive index, to minimize the perturbation, on the transduced signal, that can affect the response sensitivity towards the detected target species
Securing the Home Energy Management Platform
Energy management in households gets increasingly more attention in the struggle to integrate more sustainable energy sources. Especially in the electrical system, smart grid systems are envisioned to be part in the efforts towards a better utilisation of the energy production and distribution infrastructure. The Home Energy Management System (HEMS) is a critical infrastructure component in this endeavour. Its main goal is to enable energy services utilising smart devices in the households based on the interest of the residential consumers and external actors. With the role of being both an essential link in the communication infrastructure for balancing the electrical grid and a surveillance unit in private homes, security and privacy become essential to address. In this chapter, we identify and address potential threats Home Energy Management Platform (HEMP) developers should consider in the progress of designing architecture, selecting hardware and building software. Our approach starts with a general view of the involved stakeholders and the HEMS. Given the system overview, a threat model is constructed from the HEMP developer\u27s point of view. Based on the threats that have been detected, possible mitigation strategies are proposed taking into account the state of the art of technology for securing platforms
Privacy Enforcement in a Cost-Effective Smart Grid
In this technical report we present the current state of the research conducted during the first part of the PhD period. The PhD thesis “Privacy Enforcement in a Cost-Effective Smart Grid” focuses on ensuring privacy when generating market for energy service providers that develop web services for the residential domain in the envisaged smart grid. The PhD project is funded and associated to the EU project “Energy Demand Aware Open Services for Smart Grid Intelligent Automation” (SmartHG) and therefore introduces the project on a system-level. Based on this, we present some of the integration, security and privacy challenges that emerge when designing a system architecture and infrastructure. The resulting architecture is a consumer-centric and agent-based design and uses open Internet-based communication protocols for enabling interoperability while being cost-effective. Finally, the PhD report presentthe envisaged future work and publications that will lead to completion of the PhD study
InterCloud: Utility-Oriented Federation of Cloud Computing Environments for Scaling of Application Services
Cloud computing providers have setup several data centers at different
geographical locations over the Internet in order to optimally serve needs of
their customers around the world. However, existing systems do not support
mechanisms and policies for dynamically coordinating load distribution among
different Cloud-based data centers in order to determine optimal location for
hosting application services to achieve reasonable QoS levels. Further, the
Cloud computing providers are unable to predict geographic distribution of
users consuming their services, hence the load coordination must happen
automatically, and distribution of services must change in response to changes
in the load. To counter this problem, we advocate creation of federated Cloud
computing environment (InterCloud) that facilitates just-in-time,
opportunistic, and scalable provisioning of application services, consistently
achieving QoS targets under variable workload, resource and network conditions.
The overall goal is to create a computing environment that supports dynamic
expansion or contraction of capabilities (VMs, services, storage, and database)
for handling sudden variations in service demands.
This paper presents vision, challenges, and architectural elements of
InterCloud for utility-oriented federation of Cloud computing environments. The
proposed InterCloud environment supports scaling of applications across
multiple vendor clouds. We have validated our approach by conducting a set of
rigorous performance evaluation study using the CloudSim toolkit. The results
demonstrate that federated Cloud computing model has immense potential as it
offers significant performance gains as regards to response time and cost
saving under dynamic workload scenarios.Comment: 20 pages, 4 figures, 3 tables, conference pape
Service Provisioning in Edge-Cloud Continuum Emerging Applications for Mobile Devices
Disruptive applications for mobile devices can be enhanced by Edge computing facilities. In this context, Edge Computing (EC) is a proposed architecture to meet the mobility requirements imposed by these applications in a wide range of domains, such as the Internet of Things, Immersive Media, and Connected and Autonomous Vehicles. EC architecture aims to introduce computing capabilities in the path between the user and the Cloud to execute tasks closer to where they are consumed, thus mitigating issues related to latency, context awareness, and mobility support. In this survey, we describe which are the leading technologies to support the deployment of EC infrastructure. Thereafter, we discuss the applications that can take advantage of EC and how they were proposed in the literature. Finally, after examining enabling technologies and related applications, we identify some open challenges to fully achieve the potential of EC, and also research opportunities on upcoming paradigms for service provisioning. This survey is a guide to comprehend the recent advances on the provisioning of mobile applications, as well as foresee the expected next stages of evolution for these applications
Incrementando as redes centradas à informaçãopara uma internet das coisas baseada em nomes
The way we use the Internet has been evolving since its origins. Nowadays,
users are more interested in accessing contents and services with high demands
in terms of bandwidth, security and mobility. This evolution has triggered
the emergence of novel networking architectures targeting current, as
well as future, utilisation demands. Information-Centric Networking (ICN) is a
prominent example of these novel architectures that moves away from the current
host-centric communications and centres its networking functions around
content.
Parallel to this, new utilisation scenarios in which smart devices interact with
one another, as well as with other networked elements, have emerged to constitute
what we know as the Internet of Things (IoT). IoT is expected to have
a significant impact on both the economy and society. However, fostering the
widespread adoption of IoT requires many challenges to be overcome. Despite
recent developments, several issues concerning the deployment of IPbased
IoT solutions on a large scale are still open.
The fact that IoT is focused on data and information rather than on point-topoint
communications suggests the adoption of solutions relying on ICN architectures.
In this context, this work explores the ground concepts of ICN
to develop a comprehensive vision of the principal requirements that should
be met by an IoT-oriented ICN architecture. This vision is complemented with
solutions to fundamental issues for the adoption of an ICN-based IoT. First,
to ensure the freshness of the information while retaining the advantages of
ICN’s in-network caching mechanisms. Second, to enable discovery functionalities
in both local and large-scale domains. The proposed mechanisms are
evaluated through both simulation and prototyping approaches, with results
showcasing the feasibility of their adoption. Moreover, the outcomes of this
work contribute to the development of new compelling concepts towards a
full-fledged Named Network of Things.A forma como usamos a Internet tem vindo a evoluir desde a sua criação.
Atualmente, os utilizadores estão mais interessados em aceder a conteúdos
e serviços, com elevados requisitos em termos de largura de banda, segurança
e mobilidade. Esta evolução desencadeou o desenvolvimento de novas
arquiteturas de rede, visando os atuais, bem como os futuros, requisitos de
utilização. As Redes Centradas à Informação (Information-Centric Networking
- ICN) são um exemplo proeminente destas novas arquiteturas que, em vez
de seguirem um modelo de comunicação centrado nos dispositivos terminais,
centram as suas funções de rede em torno do próprio conteúdo.
Paralelamente, novos cenários de utilização onde dispositivos inteligentes interagem
entre si, e com outros elementos de rede, têm vindo a aparecer e
constituem o que hoje conhecemos como a Internet das Coisas (Internet of
Things - IoT ). É esperado que a IoT tenha um impacto significativo na economia
e na sociedade. No entanto, promover a adoção em massa da IoT ainda
requer que muitos desafios sejam superados. Apesar dos desenvolvimentos
recentes, vários problemas relacionados com a adoção em larga escala de
soluções de IoT baseadas no protocolo IP estão em aberto.
O facto da IoT estar focada em dados e informação, em vez de comunicações
ponto-a-ponto, sugere a adoção de soluções baseadas em arquiteturas
ICN. Neste sentido, este trabalho explora os conceitos base destas soluções
para desenvolver uma visão completa dos principais requisitos que devem ser
satisfeitos por uma solução IoT baseada na arquitetura de rede ICN. Esta visão
é complementada com soluções para problemas cruciais para a adoção
de uma IoT baseada em ICN. Em primeiro lugar, assegurar que a informação
seja atualizada e, ao mesmo tempo, manter as vantagens do armazenamento
intrínseco em elementos de rede das arquiteturas ICN. Em segundo lugar,
permitir as funcionalidades de descoberta não só em domínios locais, mas
também em domínios de larga-escala. Os mecanismos propostos são avaliados
através de simulações e prototipagem, com os resultados a demonstrarem
a viabilidade da sua adoção. Para além disso, os resultados deste
trabalho contribuem para o desenvolvimento de conceitos sólidos em direção
a uma verdadeira Internet das Coisas baseada em Nomes.Programa Doutoral em Telecomunicaçõe
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