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Expedited Feature-Based Quasi-Global Optimization of Multi-Band Antenna Input Characteristics With Jacobian Variability Tracking

Expedited Feature-Based Quasi-Global Optimization of Multi-Band Antenna Input Characteristics With Jacobian Variability Tracking


Title: Expedited Feature-Based Quasi-Global Optimization of Multi-Band Antenna Input Characteristics With Jacobian Variability Tracking
Author: Koziel, Slawomir   orcid.org/0000-0002-0584-4427
Pietrenko-Dabrowska, Anna
Date: 2020
Language: English
Scope: 83907-83915
University/Institute: Háskólinn í Reykjavík
Reykjavik University
School: Tæknisvið (HR)
School of Technology (RU)
Department: Verkfræðideild (HR)
Department of Engineering (RU)
ISSN: 2169-3536
DOI: 10.1109/ACCESS.2020.2992134
Subject: General Engineering; General Materials Science; General Computer Science; Antenna design; Input characteristics; EM-driven design; Trust-region methods; Response features; Verkfræði; Efnisfræði; Tölvunarfræði; Loftnet; Hönnun; Rafsegulbylgjur; Bestun
URI: https://hdl.handle.net/20.500.11815/2246

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Citation:

Koziel, S., & Pietrenko-Dabrowska, A. (2020). Expedited Feature-Based Quasi-Global Optimization of Multi-Band Antenna Input Characteristics With Jacobian Variability Tracking. Ieee Access, 8, 83907–83915. https://doi.org/10.1109/ACCESS.2020.2992134

Abstract:

Design of modern antennas relies-for reliability reasons-on full-wave electromagnetic simulation tools. In addition, increasingly stringent specifications pertaining to electrical and field performance, growing complexity of antenna topologies, along with the necessity for handling multiple objectives, make numerical optimization of antenna geometry parameters a highly recommended design procedure. Conventional algorithms, particularly global ones, entail often-unmanageable computational costs, so alternative approaches are needed. This work proposes a novel method for cost-efficient globalized design optimization of multi-band antennas incorporating the response feature technology into the trust-region framework. It allows for unequivocal allocation of the antenna resonances even for poor initial designs, where conventional local algorithms fail. Furthermore, the algorithm is accelerated by means of Jacobian variability tracking, which reduces the number of expensive finite-differentiation updates. Two real-world antenna design cases are used for demonstration purposes. The optimization cost is comparable to that of local routines while ensuring nearly global search capabilities.

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This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/

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