An H&lt;inf&gt;&amp;#x221E;&lt;/inf&gt; design for dynamic pricing in the smart grid

Wei‐Yu Chiu; Hongjian Sun; H Vincent Vincent Poort

doi:10.1109/ascc.2015.7244790

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An H<inf>&#x221E;</inf> design for dynamic pricing in the smart grid

Article 2015 en

Authors

WC
Wei‐Yu Chiu
HS
Hongjian Sun
H Vincent Vincent Poort

Abstract

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An H <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">∞</sub> design for dynamic pricing in the smart grid is proposed. This design jointly considers the operation of a distribution network operator and a market operator. In the design, a ratio of the regulated output energy to the disturbance energy is minimized to address the worst-case scenario. Linear matrix inequality approaches are used to formulate the design problem as a convex problem. Fuzzy interpolation techniques are integrated into the design procedure so that nonlinear grid dynamics can be addressed. In contrast with existing designs, the proposed design can yield a more reliable and practical pricing scheme as shown via simulations.

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An H<inf>&#x221E;</inf> design for dynamic pricing in the smart grid

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Abstract

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