LINK paradigm

LINK paradigm

The LINK paradigm is used to model intelligent power grids .

The LINK paradigm is defined as a set of

electrical components - these can be parts of the network, storage or electricity-producing units -
a control unit
an interface.

Overview of the holistic technical model of the intelligent power supply network.

It enables the complexity of the power supply system to be understood and its operating processes to be described. The LINK paradigm is used to model the entire power supply system from high, medium to low voltage levels, including the customer systems, as well as the description of all power supply operating processes such as balance between consumption and generation, monitoring of voltage, demand response, etc.

The LINK paradigm was developed at the Vienna University of Technology .

LINK paradigm forms the cornerstone of the holistic, technical and economic model and architecture of intelligent power supply systems, which have a large proportion of distributed energy sources. The LINK architectural paradigm is the basic instrument for reorganizing the management of the power grid, power generation, energy storage and consumers by dividing the overall system into clearly defined units - "links" - each with its own control and clearly defined interfaces to its neighboring units and the Market. The LINK solution, which is based on the uniform LINK -based architecture of intelligent power systems and is supported by LINK technology, provides a complete smart grid solution. It enables a simple and automated electricity industry, a flat business model for the entire electricity industry, and at the same time offers more reliability and stability. In addition, it allows the solution of data protection issues and enables an enormous reduction in the risk of cyber attacks.

The definition of the architectural paradigm LINK is validated by fractal analysis: it consists of unique and independent elements that avoid misinterpretation or the need to change its definition. Its use enables the convergence of the results of various scientific works and the implementation of intelligent networks on a large scale.

Individual evidence

↑ ^a ^b ^c ^d Albana Ilo: Link- the Smart Grid Paradigm for a Secure Decentralized Operation Architecture . Ed .: Electric Power Systems Research. No. 131 . Elesevier Science Direct, February 2016, p. 116-125 , doi : 10.1016 / j.epsr.2015.10.001 .
↑ LINK - a radically new approach to smart grids. (PDF) TU Wien, accessed on August 13, 2017 .
↑ Dynamic optimization of distribution networks - closed loop operating results - conference contributions - VDE VERLAG. Retrieved August 12, 2017 .
↑ Demand response , on powersys-link.com
↑ ^a ^b ^c ^d Demand response process in the context of the unified LINK-based architecture . In Bessède, Jean-Luc Eco-design in Electrical Engineering Eco-friendly Methodologies, Solutions and Example for Application to Electrical Engineering. Springer Verlag, Berlin / Heidelberg 2017, ISBN 978-3-319-58171-2 .
^ TU Wien (ed.): Power grids need a paradigm change . Press broadcast. Vienna, Austria. February 2016 ( tuwien.ac.at [accessed on August 12, 2017]).
^ The "missing link" to the smart grid? - Integrated Energy. Hannover tradefair. April 2016, accessed on August 12, 2017 .
^ Albana Ilo: The Energy Supply Chain Net . In: Energy and Power Engineering . tape 05 , no. 05 , July 5, 2013, p. 384-390 , doi : 10.4236 / epe.2013.55040 ( scirp.org [accessed August 12, 2017]).
↑ CIGRE International Colloquium (Ed.): Minimization of exchanged data on the TSO-DSO cross border by application of a new operation architecture . CIGRE International Colloquium November 2016, p. 1-6 .
↑ LINK-Solution , on www.powersys-link.com
↑ powersyslink / Link solution Vienna Austria. Retrieved August 12, 2017 .
↑ Complete Smart Grid solution
↑ ETIP SNET White Paper Holistic Power Systems Architectures , 2019.
↑ Albana Ilo: Design of the Smart Grid Architecture According to Fractal Principles and the Basics of Corresponding Market Structure , Energies 2019, 12, 4153. https://doi.org/10.3390/en12214153

[:0-1] Albana Ilo: Link- the Smart Grid Paradigm for a Secure Decentralized Operation Architecture . Ed .: Electric Power Systems Research. No. 131 . Elesevier Science Direct, February 2016, p. 116-125 , doi : 10.1016 / j.epsr.2015.10.001 .

[2] LINK - a radically new approach to smart grids. (PDF) TU Wien, accessed on August 13, 2017 .

[3] Dynamic optimization of distribution networks - closed loop operating results - conference contributions - VDE VERLAG. Retrieved August 12, 2017 .

[4] Demand response , on powersys-link.com

[:1-5] Demand response process in the context of the unified LINK-based architecture . In Bessède, Jean-Luc Eco-design in Electrical Engineering Eco-friendly Methodologies, Solutions and Example for Application to Electrical Engineering. Springer Verlag, Berlin / Heidelberg 2017, ISBN 978-3-319-58171-2 .

[6] TU Wien (ed.): Power grids need a paradigm change . Press broadcast. Vienna, Austria. February 2016 ( tuwien.ac.at [accessed on August 12, 2017]).

[7] The "missing link" to the smart grid? - Integrated Energy. Hannover tradefair. April 2016, accessed on August 12, 2017 .

[8] Albana Ilo: The Energy Supply Chain Net . In: Energy and Power Engineering . tape 05 , no. 05 , July 5, 2013, p. 384-390 , doi : 10.4236 / epe.2013.55040 ( scirp.org [accessed August 12, 2017]).

[9] CIGRE International Colloquium (Ed.): Minimization of exchanged data on the TSO-DSO cross border by application of a new operation architecture . CIGRE International Colloquium November 2016, p. 1-6 .

[10] LINK-Solution , on www.powersys-link.com

[11] powersyslink / Link solution Vienna Austria. Retrieved August 12, 2017 .

[12] Complete Smart Grid solution

[13] ETIP SNET White Paper Holistic Power Systems Architectures , 2019.

[14] Albana Ilo: Design of the Smart Grid Architecture According to Fractal Principles and the Basics of Corresponding Market Structure , Energies 2019, 12, 4153. https://doi.org/10.3390/en12214153