IoT for Smart Grids: Challenges, Opportunities and Trends
A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Internet of Things".
Deadline for manuscript submissions: closed (15 October 2021) | Viewed by 8947
Special Issue Editors
Interests: energy-efficient green communications and networking; 5G/6G networks; intelligent communication techniques; smart grids communication; vehicular networks and machine learning
Interests: smart grids; networking; cyber-physical security; blockchain; resource allocation; machine learning; optimization; stochastic modelling
Special Issues, Collections and Topics in MDPI journals
Interests: electric vehicle grid integration; demand-side management; energy storage systems; sustainability; stochastic networks; optimization and control
Special Issues, Collections and Topics in MDPI journals
Interests: cloud computing; fog computing; software engineering; Internet of things and healthcare
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Recent advancements in communication systems and the emergence of the Internet of things (IoT) hold a promise to transform the electrical power grids into smart grids that host higher shares of renewable energy generation, deploy energy storage technologies, charge large collections of electric vehicles, and enable demand response at customer sites. In this context, the IoT technology increases the efficiency and sustainability of electricity generation, delivery, and use. Specifically, IoT-enabled devices provide operational intelligence and deliver insights to the grid operators, paving the way to dynamic control and management of the grid assets, reduction of maintenance cost, and increase of operational safety. Early IoT applications include smart home energy management, power system state estimation, and forecasting of asset failures before leading to blackouts, while there is a growing amount of interest to employ IoT technology in other smart grid applications including electric vehicle load management, inverter control for PV systems, estimation of state-of-charge of energy storage units, and microgrid control.
Deploying IoT networks creates torrents of data, requiring advanced analytics, computation, and machine learning tools to uncover new insights related to electricity generation, transmission, distribution, and use. Furthermore, cybersecurity and privacy are growing concerns, as cyber-attacks could lead to catastrophic consequences with long-lasting ramifications. This Special Issue aims to provide an ideal venue to make innovative contributions to IoT for smart grids, including novel network architectures and joint optimization of power and communication networks for efficient planning and operation. We invite experimental, simulation-based, and/or analytical research with well-elaborated realistic case studies.
We look forward to receiving your submission on the topic of “IoT for Smart Grids: Challenges, Opportunities, and Trends”. The topics of interest for this Special Issue include, but are not limited to:
- False data injection attack and detection in smart grid IoT;
- Data analytics in smart grid IoT;
- Fog/edge/cloud-based service solutions for smart grid IoT;
- Machine learning and deep learning for resilient and efficient smart grid IoT;
- Security threats and vulnerability detection in smart grid IoT;
- Energy theft detection in modern smart grid IoT;
- Energy efficient deployments for smart grid IoT;
- Data-driven framework for energy theft detection in distributed renewable energy resources (DRES) using smart grid IoT;
- Big data analytics in smart grid IoT;
- Intrusion detection in smart grid IoT;
- Privacy and security issues in AI applications in smart grid IoT;
- Secure integration of IoT solutions to smart grids;
- Privacy and security issues in smart grid IoT interoperability;
- Game theoretic study of smart grid IoT security and privacy problems;
- Information theoretic models of privacy and security in smart grid IoT;
- Data mining and machine learning algorithms for smart charging/discharging of EVs using smart grid IoT;
- Frameworks, roadmaps, or mechanisms for integrating the smart power grid and intelligent transportation systems using smart grid IoT;
- Advanced metering infrastructures in smart grid IoT;
- Benchmarking machine learning models for smart grid IoT communications;
- Big data, IoT, and machine learning for resilient smart grid infrastructure;
- Integration of secure solutions for industrial IoT and internet of energy;
- Security, interoperability, and design models for smart grid IoT using deep learning models;
- Robustness and fault-tolerance in smart grid IoT using deep learning models;
- Privacy preserving data aggregation and protection using deep learning models in smart grid IoT;
- Security and privacy issues in fog/edge-enabled models for smart grid IoT;
- Economics and performance analysis of smart grid IoT using deep learning models.
Dr Haris Pervaiz
Dr Muhammad Ismail
Dr Islam Safak Bayram
Dr Sukhpal Singh Gill
Guest Editors
Manuscript Submission Information
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