English

The Inverse Carson's Equations Problem: Definition, Implementation and Numerical Experiments

Optimization and Control 2025-06-10 v2

Abstract

In recent years, with the increase in renewable energy and storage penetration, power flow studies in low-voltage networks have become of interest in both industry and academia. Many studies use impedance represented by sequence components due to the lack of datasets with fully parameterized impedance matrices. This assumes that the network impedance is balanced, which is typically not the case in the low-voltage network and therefore risks the accuracy of the study. This paper proposes a methodology for the recovery of more detailed impedance data from sequence components as an inverse problem, i.e. the inverse Carson's equations problem, for both overhead lines and cables. We consider discrete properties like material and configuration of conductors common in the distribution network and investigate what data can be reliably recovered from only sequence components using nonlinear optimisation models. Presented results include uniqueness of recovered variables and the likelihood of mismatch.

Keywords

Cite

@article{arxiv.2404.08210,
  title  = {The Inverse Carson's Equations Problem: Definition, Implementation and Numerical Experiments},
  author = {Ching Hong Tam and Frederik Geth and Nadarajah Mithulananthan},
  journal= {arXiv preprint arXiv:2404.08210},
  year   = {2025}
}

Comments

12 pages

R2 v1 2026-06-28T15:52:05.770Z