Symmetry with IoT in Electrical Engineering
A special issue of Symmetry (ISSN 2073-8994). This special issue belongs to the section "Computer".
Deadline for manuscript submissions: closed (15 April 2023) | Viewed by 2884
Special Issue Editors
Interests: renewable energy; smart grids; microgrids; energy storage systems; hybrid electric systems; smart meter; power quality analyzers; IoT; LPWAN; electrical machines; energy efficiency
Special Issues, Collections and Topics in MDPI journals
Interests: renewable energy; smart grids; microgrids; energy storage systems; hybrid electric systems; electric vehicles; smart meter; power quality analyzers; IoT; LPWAN; wireless sensor network
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Electrical and IoT-connected installations are part of future of electricity grids. This enables numerous operations to be performed within the power system. Electric power systems can be considered as symmetrical systems from energy supply to energy consumption, which must take into account the improvement of supply quality, reduction of carbon emissions, integration of renewable energy sources, increasing energy costs, etc.
In particular, the increase in distributed energy resources causes problems in distribution networks. To achieve a higher-quality and more stable power supply, electric power systems must address the problems of both symmetrical and asymmetrical power grids, where new technologies are incorporated, including sustainable energy generation systems, smart distribution grids, power system monitoring technologies, transmission systems, and DC distribution.
Networks and microgrids where distributed generation is integrated are also becoming more common. These networks can operate with alternating-current and direct-current buses. Therefore, it is necessary to develop in both types of networks.
The development of IoT devices is used in areas such as Industry 4.0, high- and low-voltage networks for the distribution of electrical energy, electrical plants with renewable energies (photovoltaic, wind, hydraulic, biomass, etc.), traditional electrical plants, electrical substations, transformation centers, homes, smart grids, street lights, electric vehicles, energy storage systems, etc.
Another important aspect of smart grids is the communication systems used to send information, among which LoRa grids stand out, as they allow data to be obtained from the electricity system at different points, with small energy consumptions, which makes the task more efficient.
Prof. Dr. Antonio Cano-Ortega
Prof. Dr. Francisco Sánchez-Sutil
Guest Editors
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Keywords
- symmetry in power supply quality
- symmetry in smart electric in Industry 4.0
- symmetry in smart grids
- symmetry in renewable energy plants: photovoltaic energy, wind energy, hydroelectric energy, biomass energy, and other renewable energy resources
- monitoring with smart electric sensors in households
- symmetry in street light systems
- symmetry in electric vehicles
- symmetry analysis of energy storage systems
- symmetry analysis of power quality analyzers
- wireless technologies: Wi-Fi, LoRa, etc.
