Quantum/Relativistic Computation of Security and Efficiency of   Electrical Power System for a Day-Ahead

Stefan Z. Stefanov

arXiv:1111.0808·cs.OH·October 5, 2012

Quantum/Relativistic Computation of Security and Efficiency of Electrical Power System for a Day-Ahead

Stefan Z. Stefanov

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Open Access

TL;DR

This paper introduces a novel algorithm that applies quantum and relativistic principles to evaluate the security and efficiency of electrical power systems for the next day, using perturbative renormalization techniques.

Contribution

It presents a new computational method combining quantum and relativistic approaches for day-ahead power system analysis, including flowchart development and validation.

Findings

01

Effective computation of EPS security and efficiency

02

Validation of the proposed algorithm

03

Flowcharts for implementation

Abstract

An algorithm for Electric Power System (EPS) quantum/relativistic security and efficiency computation for a day-ahead via perturbative renormalization of the EPS, finding the computation flowcharts, verification and validation is built in this paper.

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Taxonomy

TopicsQuantum Computing Algorithms and Architecture · Quantum Mechanics and Applications · Quantum Information and Cryptography