中文

Gradient-Enhanced NSGA-II Algorithm Complex Permittivity Extraction of Polymer Materials Using

计算工程、金融与科学 2026-07-11 v1

摘要

This paper presents gradient-enhanced non-dominated sorting genetic algorithm II (G-NSGA-II) to address the challenges of local optima and solution non-uniqueness in the complex permittivity extraction problem for the first time. This adaptive hybrid algorithm integrates the global exploration capability of NSGA-II with gradient-based local refinement, triggered by a population-stagnation detection mechanism. Furthermore, multi-dimensional constraints are incorporated by jointly optimizing transmission and reflection coefficients across multiple sample thicknesses. Experimental validation conducted on six typical polymers in the 20--40 GHz band demonstrates that the retrieved relative permittivity and thicknesses are in high agreement with literature values and physical measurements. Compared to standard heuristic and gradient-based algorithms, the proposed G-NSGA-II reduces the number of generations required for convergence by approximately 50\%. This significant improvement in speed, combined with enhanced robustness, provides a highly reliable and efficient solution for broadband dielectric characterization in architectural and electromagnetic engineering. The simple measurement method and the proposed efficient algorithm allow for a rapid evalutaion of wireless performance within indoor environments. This approach serves as a valuable tool for optimizing existing wireless layouts and improving network performance.

引用

@article{arxiv.2607.10261,
  title  = {Gradient-Enhanced NSGA-II Algorithm Complex Permittivity Extraction of Polymer Materials Using},
  author = {Hanqing Qing and Zhuowei Li and Jiliang Zhang and Xi Liao and Yang Wang},
  journal= {arXiv preprint arXiv:2607.10261},
  year   = {2026}
}