Abstract
Nowadays, there is a dramatic upsurge in the use of renewable energy resources, ICT and digitalization that requires more than the straightforward refinements of an established power system structure. New solutions are required to perform dynamic optimizations in real time, closed loops and so on, taking into account the high requirements on data privacy and cyber security. The LINK-paradigm was designed to meet these requirements. It was developed on the basis of the bottom-up method that can lead to misinterpretations or wrong conclusions. This work mainly deals with the verification of the authenticity and correctness of LINK. Fractal analysis is used to identify the unique and independent elements of smart grids required for the design of an architectural paradigm. The signature of the fractal structure, the so-called fractal pattern, is founded and referred to as electrical appliances (ElA). The latter has proven to be the key component of the architectural LINK paradigm. The definition of the LINK paradigm is finally validated: It consists of unique and independent elements that avoid misinterpretation or the need for any changes in its definition. Additionally, the fractal analysis indicates two fractal anomalies in the existing power system structure, while the fractal dimension calculation insinuates the highest complexity in the fractal level of electrical devices. The LINK-based holistic architecture is given a finishing touch. A compact presentation of the control chain strategy is provided that should facilitate its practical implementation. The basis for the harmonization of the market structure with the grid link arrangements is established. The processes of demand response and conservation voltage reduction are presented under the new findings.
Highlights
In the last 15 years many papers and books developed to investigate and design smart grids have been written
Fractals are constructs characterized by a cascade of similar structural details that appear on all are cascade constructs characterized in bytheoretical a cascade of similar structural that appear on all levelsFractals
The definition of the architectural paradigm LINK is validated by the fractal analysis: The definition of the architectural paradigm LINK is validated by the fractal analysis: It
Summary
In the last 15 years many papers and books developed to investigate and design smart grids have been written. Concepts are introduced and various models are developed that lead to extremely ramified and complex schemas. Various projects are focused on certain parts of power systems without considering the integrity of smart grids. “An extremely diverse and complex topic” is the answer. ” teaches us Richard Feynman, the greatest [1]. Each time we get into this logjam of too much trouble, too many problems, it is because the methods that we are using are just like the ones we have used before . This means the problem may be in is in the origin, in the definitions of the circulating smart grid concepts
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