10 research outputs found
A Survey on Energy Efficiency in Smart Homes and Smart Grids
Empowered by the emergence of novel information and communication technologies (ICTs) such as sensors and high-performance digital communication systems, Europe has adapted its electricity distribution network into a modern infrastructure known as a smart grid (SG). The benefits of this new infrastructure include precise and real-time capacity for measuring and monitoring the different energy-relevant parameters on the various points of the grid and for the remote operation and optimization of distribution. Furthermore, a new user profile is derived from this novel infrastructure, known as a prosumer (a user that can produce and consume energy to/from the grid), who can benefit from the features derived from applying advanced analytics and semantic technologies in the rich amount of big data generated by the different subsystems. However, this novel, highly interconnected infrastructure also presents some significant drawbacks, like those related to information security (IS). We provide a systematic literature survey of the ICT-empowered environments that comprise SGs and homes, and the application of modern artificial intelligence (AI) related technologies with sensor fusion systems and actuators, ensuring energy efficiency in such systems. Furthermore, we outline the current challenges and outlook for this field. These address new developments on microgrids, and data-driven energy efficiency that leads to better knowledge representation and decision-making for smart homes and SGsThis research was co-funded by Interreg Österreich-Bayern 2014–2020 programme project KI-Net: Bausteine für KI-basierte Optimierungen in der industriellen Fertigung (AB 292). This work is also supported by the ITEA3 OPTIMUM project and ITEA3 SCRATCH project, all of them funded by the Centro Tecnológico de Desarrollo Industrial (CDTI), Spain
An Efficient Authentication Protocol for Smart Grid Communication Based on On-Chip-Error-Correcting Physical Unclonable Function
Security has become a main concern for the smart grid to move from research
and development to industry. The concept of security has usually referred to
resistance to threats by an active or passive attacker. However, since smart
meters (SMs) are often placed in unprotected areas, physical security has
become one of the important security goals in the smart grid. Physical
unclonable functions (PUFs) have been largely utilized for ensuring physical
security in recent years, though their reliability has remained a major problem
to be practically used in cryptographic applications. Although fuzzy extractors
have been considered as a solution to solve the reliability problem of PUFs,
they put a considerable computational cost to the resource-constrained SMs. To
that end, we first propose an on-chip-error-correcting (OCEC) PUF that
efficiently generates stable digits for the authentication process. Afterward,
we introduce a lightweight authentication protocol between the SMs and
neighborhood gateway (NG) based on the proposed PUF. The provable security
analysis shows that not only the proposed protocol can stand secure in the
Canetti-Krawczyk (CK) adversary model but also provides additional security
features. Also, the performance evaluation demonstrates the significant
improvement of the proposed scheme in comparison with the state-of-the-art
Key Management Systems for Smart Grid Advanced Metering Infrastructure: A Survey
Smart Grids are evolving as the next generation power systems that involve
changes in the traditional ways of generation, transmission and distribution of
power. Advanced Metering Infrastructure (AMI) is one of the key components in
smart grids. An AMI comprises of systems and networks, that collects and
analyzes data received from smart meters. In addition, AMI also provides
intelligent management of various power-related applications and services based
on the data collected from smart meters. Thus, AMI plays a significant role in
the smooth functioning of smart grids.
AMI is a privileged target for security attacks as it is made up of systems
that are highly vulnerable to such attacks. Providing security to AMI is
necessary as adversaries can cause potential damage against infrastructures and
privacy in smart grid. One of the most effective and challenging topic's
identified, is the Key Management System (KMS), for sustaining the security
concerns in AMI. Therefore, KMS seeks to be a promising research area for
future development of AMI. This survey work highlights the key security issues
of advanced metering infrastructures and focuses on how key management
techniques can be utilized for safeguarding AMI. First of all, we explore the
main features of advanced metering infrastructures and identify the
relationship between smart grid and AMI. Then, we introduce the security issues
and challenges of AMI. We also provide a classification of the existing works
in literature that deal with secure key management system in AMI. Finally, we
identify possible future research directions of KMS in AMI
Five Facets of 6G: Research Challenges and Opportunities
Whilst the fifth-generation (5G) systems are being rolled out across the
globe, researchers have turned their attention to the exploration of radical
next-generation solutions. At this early evolutionary stage we survey five main
research facets of this field, namely {\em Facet~1: next-generation
architectures, spectrum and services, Facet~2: next-generation networking,
Facet~3: Internet of Things (IoT), Facet~4: wireless positioning and sensing,
as well as Facet~5: applications of deep learning in 6G networks.} In this
paper, we have provided a critical appraisal of the literature of promising
techniques ranging from the associated architectures, networking, applications
as well as designs. We have portrayed a plethora of heterogeneous architectures
relying on cooperative hybrid networks supported by diverse access and
transmission mechanisms. The vulnerabilities of these techniques are also
addressed and carefully considered for highlighting the most of promising
future research directions. Additionally, we have listed a rich suite of
learning-driven optimization techniques. We conclude by observing the
evolutionary paradigm-shift that has taken place from pure single-component
bandwidth-efficiency, power-efficiency or delay-optimization towards
multi-component designs, as exemplified by the twin-component ultra-reliable
low-latency mode of the 5G system. We advocate a further evolutionary step
towards multi-component Pareto optimization, which requires the exploration of
the entire Pareto front of all optiomal solutions, where none of the components
of the objective function may be improved without degrading at least one of the
other components
Cyber Security of Critical Infrastructures
Critical infrastructures are vital assets for public safety, economic welfare, and the national security of countries. The vulnerabilities of critical infrastructures have increased with the widespread use of information technologies. As Critical National Infrastructures are becoming more vulnerable to cyber-attacks, their protection becomes a significant issue for organizations as well as nations. The risks to continued operations, from failing to upgrade aging infrastructure or not meeting mandated regulatory regimes, are considered highly significant, given the demonstrable impact of such circumstances. Due to the rapid increase of sophisticated cyber threats targeting critical infrastructures with significant destructive effects, the cybersecurity of critical infrastructures has become an agenda item for academics, practitioners, and policy makers. A holistic view which covers technical, policy, human, and behavioural aspects is essential to handle cyber security of critical infrastructures effectively. Moreover, the ability to attribute crimes to criminals is a vital element of avoiding impunity in cyberspace. In this book, both research and practical aspects of cyber security considerations in critical infrastructures are presented. Aligned with the interdisciplinary nature of cyber security, authors from academia, government, and industry have contributed 13 chapters. The issues that are discussed and analysed include cybersecurity training, maturity assessment frameworks, malware analysis techniques, ransomware attacks, security solutions for industrial control systems, and privacy preservation methods