Year 2021

• Expedited Trust-Region-Based Design Closure of Antennas by Variable-Resolution EM Simulations

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • L. Leifsson

  - Year 2021

  The observed growth in the complexity of modern antenna topologies fostered a widespread employment of numerical optimization methods as the primary tools for final adjustment of the system parameters. This is mainly caused by insufficiency of traditional design closure approaches, largely based on parameter sweeping. Reliable evaluation of complex antenna structures requires full-wave electromagnetic (EM) analysis. Yet, EM-driven...

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• Explicit Size-Reduction of Circularly Polarized Antennas through Constrained Optimization with Penalty Factor Adjustment

  Publication

  • M. Mahrokh
  • S. Kozieł (formerly: M. Kozieł)

  - IEEE Access - Year 2021

  Modern communication systems of high data capacity incorporate circular polarization (CP) as the preferred antenna radiation field configuration. In many applications, integration of the system circuitry with antennas imposes size limitations on CP radiators, which makes their development process a challenging endeavor. This can be mitigated by means of simulation-driven design, specifically, constrained numerical optimization....

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• Fast and reliable knowledge-based design closure of antennas by means of iterative prediction-correction scheme

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - ENGINEERING COMPUTATIONS - Year 2021

  A novel framework for expedited antenna optimization with an iterative prediction-correction scheme is proposed. The methodology is comprehensively validated using three real-world antenna structures: narrow-band, dual-band and wideband, optimized under various design scenarios. The keystone of the proposed approach is to reuse designs pre-optimized for various sets of performance specifications and to encode them into metamodels...

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• Fast Design Closure of Compact Microwave Components by Means of Feature-Based Metamodels

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - Electronics - Year 2021

  Precise tuning of geometry parameters is an important consideration in the design of modern microwave passive components. It is mandatory due to limitations of theoretical design methods unable to quantify certain phenomena that are important for the operation and performance of the devices (e.g., strong cross-coupling effects in miniaturized layouts). Consequently, the initial designs obtained using analytical or equivalent network...

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• Frequency-Based Regularization for Improved Reliability Optimization of Antenna Structures

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • M. Al-hasan

  - IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION - Year 2021

  The paper proposes a modified formulation of antenna parameter tuning problem. The main ingredient of the presented approach is a frequency-based regularization. It allows for smoothening the functional landscape of the assumed cost function, defined to encode the prescribed design specifications. The regularization is implemented as a special penalty term complementing the primary objective and enforcing the alignment of the antenna...

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• Global EM-Driven Optimization of Multi-Band Antennas Using Knowledge-Based Inverse Response-Feature Surrogates

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - KNOWLEDGE-BASED SYSTEMS - Year 2021

  Electromagnetic simulation tools have been playing an increasing role in the design of contemporary antenna structures. The employment of electromagnetic analysis ensures reliability of evaluating antenna characteristics but also incurs considerable computational expenses whenever massive simulations are involved (e.g., parametric optimization, uncertainty quantification). This high cost is the most serious bottleneck of simulation-driven...

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• Globalized parametric optimization of microwave components by means of response features and inverse metamodels

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - Scientific Reports - Year 2021

  Simulation-based optimization of geometry parameters is an inherent and important stage of microwave design process. To ensure reliability, the optimization process is normally carried out using full-wave electromagnetic (EM) simulation tools, which entails significant computational overhead. This becomes a serious bottleneck especially if global search is required (e.g., design of miniaturized structures, dimension scaling over...

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• Highly Miniaturized Self-Diplexed U-Shaped Slot Antenna Based on Shielded QMSIW

  Publication

  • R. Barik
  • S. Kozieł
  • Q. Cheng
  • S. Szczepański

  - IEEE Access - Year 2021

  This article presents an efficient yet simple design approach to highly miniaturized cavity-backed self-diplexing antenna (SDA) with high-isolation. The structure employs a shielded quarter-mode substrate integrated waveguide (QMSIW). Two U-shaped slots are engraved on the top conducting plane, which realize two frequency bands and significant size reduction. The slots are excited by two independent 50Ω orthogonal feed-lines to...

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• Improved Design Closure of Compact Microwave Circuits by Means of Performance Requirement Adaptation

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • L. Leifsson

  - Year 2021

  Numerical optimization procedures have been widely used in the design of microwave components and systems. Most often, optimization algorithms are applied at the later stages of the design process to tune the geometry and/or material parameter values. To ensure sufficient accuracy, parameter adjustment is realized at the level of full-wave electromagnetic (EM) analysis, which creates perhaps the most important bottleneck due to...

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• Improved Modeling of Microwave Structures Using Performance-Driven Fully-Connected Regression Surrogate

  Publication

  • S. Kozieł
  • P. Mahouti
  • N. Calik
  • M. Belen
  • S. Szczepański

  - IEEE Access - Year 2021

  Fast replacement models (or surrogates) have been widely applied in the recent years to accelerate simulation-driven design procedures in microwave engineering. The fundamental reason is a considerable—and often prohibitive—CPU cost of massive full-wave electromagnetic (EM) analyses related to solving common tasks such as parametric optimization or uncertainty quantification. The most popular class of surrogates are data-driven...

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• Iterative Global Sensitivity Analysis Algorithm with Neural Network Surrogate Modeling

  Publication

  • Y. Liu
  • J. Nagawkar
  • L. Leifsson
  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - Year 2021

  Global sensitivity analysis (GSA) is a method to quantify the effect of the input parameters on outputs of physics-based systems. Performing GSA can be challenging due to the combined effect of the high computational cost of each individual physics-based model, a large number of input parameters, and the need to perform repetitive model evaluations. To reduce this cost, neural networks (NNs) are used to replace the expensive physics-based...

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• Kriging metamodels and design re‐utilization for fast parameter tuning of antenna structures

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - INTERNATIONAL JOURNAL OF NUMERICAL MODELLING-ELECTRONIC NETWORKS DEVICES AND FIELDS - Year 2021

  The paper addresses the problem of computationally efficient electromagnetic (EM)‐driven design closure of antenna structures. The foundations of the presented approach are fast kriging interpolation metamodels, utilized for two purposes: (a) producing a good starting point for further parameter tuning, and (b) yielding a reasonable Jacobian matrix estimate to jump‐start the optimization procedure. The models are rendered using...

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• Low-Cost Modeling of Microwave Components by Means of Two-Stage Inverse/Forward Surrogates and Domain Confinement

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • U. Ubaid

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2021

  Full-wave electromagnetic (EM) analysis is one of the most important tools in the design of modern microwave components and systems. EM simulation permits reliable evaluation of circuits at the presence of cross-coupling effects or substrate anisotropy, as well as for accounting for interactions with the immediate environment. However, repetitive analyses required by EM-driven procedures, such as parametric optimization or statistical...

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• Low-cost multi-criterial design optimization of compact microwave passives using constrained surrogates and dimensionality reduction

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • M. Al-hasan

  - INTERNATIONAL JOURNAL OF NUMERICAL MODELLING-ELECTRONIC NETWORKS DEVICES AND FIELDS - Year 2021

  Design of contemporary microwave circuits is a challenging task. Typically, it has to take into account several performance requirements and constraints. The design objectives are often conflicting and their simultaneous improvement may not be possible; instead, compromise solutions are to be sought. Representative examples are miniaturized microwave passives where reduction of the circuit size has a detrimental effect on its electrical...

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• Low-Cost Unattended Design of Miniaturized 4 × 4 Butler Matrices with Nonstandard Phase Differences

  Publication

  • A. Bekasiewicz
  • S. Kozieł

  - SENSORS - Year 2021

  Design of Butler matrices dedicated to Internet of Things and 5th generation (5G) mobile systems—where small size and high performance are of primary concern—is a challenging task that often exceeds capabilities of conventional techniques. Lack of appropriate, unified design approaches is a serious bottleneck for the development of Butler structures for contemporary applications. In this work, a low-cost bottom-up procedure for...

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• Machine-Learning-Powered EM-Based Framework for Efficient and Reliable Design of Low Scattering Metasurfaces

  Publication

  • S. Kozieł
  • M. Abdullah

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2021

  Popularity of metasurfaces has been continuously growing due to their attractive properties including the ability to effectively manipulate electromagnetic (EM) waves. Metasurfaces comprise optimized geometries of unit cells arranged as a periodic lattice to obtain a desired EM response. One of their emerging application areas is the stealth technology, in particular, realization of radar cross section (RCS) reduction. Despite...

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• Normalized Partial Scattering Cross Section for Performance Evaluation of Low-Observability Scattering Structures

  Publication

  • M. Abdullah
  • S. Kozieł
  • S. Szczepański

  - Electronics - Year 2021

  The development of diffusion metasurfaces created new opportunities to elevate the stealthiness of combat aircraft. Despite the potential significance of metasurfaces, their rigorous design methodologies are still lacking, especially in the context of meticulous control over the scattering of electromagnetic (EM) waves through geometry parameter tuning. Another practical issue is insufficiency of the existing performance metrics,...

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• On Decomposition-Based Surrogate-Assisted Optimization of Leaky Wave Antenna Input Characteristics for Beam Scanning Applications

  Publication

  • M. Belen
  • P. Mahouti
  • S. Kozieł
  • A. Caliskan
  • S. Szczepański (formerly: J. Szczepański)

  - IEEE Access - Year 2021

  Recent years have witnessed a growing interest in reconfigurable antenna systems. Travelling wave antennas (TWAs) and leaky wave antennas (LWAs) are representative examples of structures featuring a great level of flexibility (e.g., straightforward implementation of beam scanning), relatively simple geometrical structure, low profile, and low fabrication cost. Notwithstanding, the design process of TWAs/LWAs is a challenging endeavor...

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• On EM-driven size reduction of antenna structures with explicit constraint handling

  Publication

  • A. Pietrenko-Dąbrowska (formerly: S. Kozieł)
  • S. Kozieł

  - IEEE Access - Year 2021

  Simulation-driven miniaturization of antenna components is a challenging task mainly due to the presence of expensive constraints, evaluation of which involves full-wave electromagnetic (EM) analysis. The recommended approach is implicit constraint handling using penalty functions, which, however, requires a meticulous selection of penalty coefficients, instrumental in ensuring optimization process reliability. This paper proposes...

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• On Fast Multi-objective Optimization of Antenna Structures Using Pareto Front Triangulation and Inverse Surrogates

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł
  • L. Leifsson

  - Year 2021

  Design of contemporary antenna systems is a challenging endeavor, where conceptual developments and initial parametric studies, interleaved with topology evolution, are followed by a meticulous adjustment of the structure dimensions. The latter is necessary to boost the antenna performance as much as possible, and often requires handling several and often conflicting objectives, pertinent to both electrical and field properties...

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• On geometry parameterization for simulation-driven design closure of antenna structures

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - Scientific Reports - Year 2021

  Full-wave electromagnetic (EM) simulation tools have become ubiquitous in antenna design, especially final tuning of geometry parameters. From the reliability standpoint, the recommended realization of EM-driven design is through rigorous numerical optimization. It is a challenging endeavor with the major issues related to the high computational cost of the process, but also the necessity of handling several objectives and constraints...

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• Optimization-based antenna miniaturization using adaptively-adjusted penalty factors

  Publication

  • M. Mahrokh
  • S. Kozieł

  - Electronics - Year 2021

  The continuing trend for miniaturization of electronic devices necessitates size reduction of the comprising components and circuitry. Specifically, integrated circuit-antenna modules therein require compact radiators in applications such as 5G communications, implantable and on-body devices, or internet of things (IoT). The conflict between the demands for compact size and elec-trical and field performance can be mitigated by...

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• Rapid Multi-Criterial Antenna Optimization by Means of Pareto Front Triangulation and Interpolative Design Predictors

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - IEEE Access - Year 2021

  Modern antenna systems are designed to meet stringent performance requirements pertinent to both their electrical and field properties. The objectives typically stay in conflict with each other. As the simultaneous improvement of all performance parameters is rarely possible, compromise solutions have to be sought. The most comprehensive information about available design trade-offs can be obtained through multi-objective optimization...

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• Recent Advances in Accelerated Multi-Objective Design of High-Frequency Structures using Knowledge-Based Constrained Modeling Approach

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - KNOWLEDGE-BASED SYSTEMS - Year 2021

  Design automation, including reliable optimization of engineering systems, is of paramount importance for both academia and industry. This includes the design of high-frequency structures (antennas, microwave circuits, integrated photonic components), where the appropriate adjustment of geometry and material parameters is crucial to meet stringent performance requirements dictated by practical applications. Realistic design has...

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• Reduced-Cost Microwave Design Closure by Multi-Resolution EM Simulations and Knowledge-Based Model Management

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • P. Płotka

  - IEEE Access - Year 2021

  Parameter adjustment through numerical optimization has become a commonplace of contemporary microwave engineering. Although circuit theory methods are ubiquitous in the development of microwave components, the initial designs obtained with such tools have to be further tuned to improve the system performance. This is particularly pertinent to miniaturized structures, where the cross-coupling effects cannot be adequately accounted...

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• Robust Parameter Tuning of Antenna Structures by Means of Design Specification Adaptation

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska (formerly: W. Pietrenko)

  - IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION - Year 2021

  Parameter tuning through numerical optimization has become instrumental in the design of high-performance antenna systems. Yet, practical optimization faces several major challenges, including high cost of massive evaluations of antenna characteristics, normally involving full-wave electromagnetic (EM) analysis, large numbers of adjustable variables, the shortage of reasonable initial solutions in the case of topologically complex...

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• Series-Slot-Fed Circularly Polarized Multiple-Input-Multiple-Output Antenna Array Enabling Circular Polarization Diversity for 5G 28-GHz Indoor Applications

  Publication

  • U. Ullah
  • M. Al-hasan
  • I. Mabrouk
  • S. Kozieł

  - IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION - Year 2021

  In this paper, a four-element circularly polarized series-slot-fed multiple-input-multiple-output (MIMO) antenna array with circular polarization diversity is presented. The proposed design utilizes a combination of 45-degree inclined slots and a straight microstrip line feeding technique. The two antennas are designed to operate with the opposite sense of circular polarization (CP). CP is achieved by placing a patch of just about...

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• Surrogate-Assisted Design of Checkerboard Metasurface for Broadband Radar Cross-Section Reduction

  Publication

  • M. Abdullah
  • S. Kozieł

  - IEEE Access - Year 2021

  Metasurfaces have been extensively exploited in stealth applications to reduce radar cross section (RCS). They rely on the manipulation of backward scattering of electromagnetic (EM) waves into various oblique angles. However, arbitrary control of the scattering properties poses a significant challenge as a design task. Yet it is a principal requirement for making RCS reduction possible. This article introduces a surrogate-based...

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Year 2020

• A Conformal Circularly Polarized Series-Fed Microstrip Antenna Array Design

  Publication

  • S. Ogurtsov
  • S. Kozieł

  - IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION - Year 2020

  A conformal circularly polarized series-fed microstrip array design for broadside radiation is presented. The array aperture under design is conformal to a cylindrical surface of a given radius. The approach we present primarily addresses focusing of the circularly polarized major lobe of the conformal array by proper dimensioning of the aperture spacings. The proposed analytical models yield the values of the element spacings...

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• A framework for accelerated optimization of antennas using design database and initial parameter set estimation

  Publication

  • S. Kozieł
  • A. Bekasiewicz

  - ENGINEERING COMPUTATIONS - Year 2020

  The purpose of this paper is to exploit a database of pre-existing designs to accelerate parametric optimization of antenna structures is investigated. Design/methodology/approach The usefulness of pre-existing designs for rapid design of antennas is investigated. The proposed approach exploits the database existing antenna base designs to determine a good starting point for structure optimization and its response sensitivities....

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• Accelerated design optimization of miniaturized microwave passives by design reusing and Kriging interpolation surrogates

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS - Year 2020

  Electromagnetic (EM) analysis has become ubiquitous in the design of microwave components and systems. One of the reasons is the increasing topological complexity of the circuits. Their reliable evaluation—at least at the design closure stage—can no longer be carried out using analytical or equivalent network representations. This is especially pertinent to miniaturized structures, where considerable EM cross-coupling effects occurring...

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• Accelerated multi-objective design of miniaturized microwave components by means of nested kriging surrogates

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING - Year 2020

  Design of microwave components is an inherently multiobjective task. Often, the objectives are at least partially conflicting and the designer has to work out a suitable compromise. In practice, generating the best possible trade‐off designs requires multiobjective optimization, which is a computationally demanding task. If the structure of interest is evaluated through full‐wave electromagnetic (EM) analysis, the employment of...

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• Accelerated Re-Design of Antenna Structures Using Sensitivity-Based Inverse Surrogates

  Publication

  • S. Kozieł
  • A. Bekasiewicz

  - IEEE Access - Year 2020

  The paper proposes a novel framework for accelerated re-design (dimension scaling) of antenna structures using inverse surrogates. The major contribution of the work is a sensitivity-based model identification procedure, which permits a significant reduction of the number of reference designs required to render the surrogate. Rigorous formulation of the approach is supplemented by its comprehensive numerical validation using a...

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• Aerodynamic Shape Optimization for Delaying Dynamic Stall of Airfoils by Regression Kriging

  Publication

  • V. Raul
  • L. Leifsson
  • S. Kozieł

  - Year 2020

  The phenomenon of dynamic stall produce adverse aerodynamic loading which can adversely affect the structural strength and life of aerodynamic systems. Aerodynamic shape optimization (ASO) provides an effective approach for delaying and mitigating dynamic stall characteristics without the addition of auxiliary system. ASO, however, requires multiple evaluations time-consuming computational fluid dynamics models. Metamodel-based...

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• Antenna Modeling Using Variable-Fidelity EM Simulations and Constrained Co-Kriging

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - IEEE Access - Year 2020

  Utilization of fast surrogate models has become a viable alternative to direct handling of fullwave electromagnetic (EM) simulations in EM-driven design. Their purpose is to alleviate the difficulties related to high computational cost of multiple simulations required by the common numerical procedures such as parametric optimization or uncertainty quantification. Yet, conventional data-driven (or approximation) modeling techniques...

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• Circular polarization diversity implementation for correlation reduction in wideband low-cost multiple-input-multiple-output antenna

  Publication

  • U. Ullah
  • M. Al-hasan
  • S. Kozieł
  • I. Mabrouk

  - IEEE Access - Year 2020

  In this paper, a multiple-input-multiple-output (MIMO) antenna featuring circular polarization diversity, and designed on a common coplanar ground is presented. The proposed antenna design utilizes a coplanar waveguide (CPW) feeding technique with three parallel coplanar ground planes, and two feedlines in-between. For circular polarization (CP), quasi-loops are created by etching slots on the outermost ground planes. With this...

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• Compact Dual-Polarized Corrugated Horn Antenna for Satellite Communications

  Publication

  • M. Saeed
  • S. Kozieł
  • L. Leifsson

  - IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION - Year 2020

  In this paper, a structure and design procedure of a novel compact dual-polarized corrugated horn antenna with high gain and a stable phase center for satellite communication is presented. The antenna incorporates an Ortho-Mode Transducer (OMT), a mode converter, and a corrugated structure. The compact OMT section is designed to be fed by standard WR-75 waveguides. The proposed compact design utilizes only ten corrugated slots...

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• Computationally-efficient design optimisation of antennas by accelerated gradient search with sensitivity and design change monitoring

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - IET Microwaves Antennas & Propagation - Year 2020

  Electromagnetic (EM) simulation tools are of primary importance in the design of contemporary antennas. The necessity of accurate performance evaluation of complex structures is a reason why the final tuning of antenna dimensions, aimed at improvement of electrical and field characteristics, needs to be based on EM analysis. Design automation is highly desirable and can be achieved by coupling EM solvers with numerical optimisation...

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• Cost-Efficient Bi-Layer Modeling of Antenna Input Characteristics Using Gradient Kriging Surrogates

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł
  • M. Al-hasan

  - IEEE Access - Year 2020

  Over the recent years, surrogate modeling has been playing an increasing role in the design of antenna structures. The main incentive is to mitigate the issues related to high cost of electromagnetic (EM)-based procedures. Among the various techniques, approximation surrogates are the most popular ones due to their flexibility and easy access. Notwithstanding, data-driven modeling of antenna characteristics is associated with serious...

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• Cost‐efficient performance‐driven modelling of multi‐band antennas by variable‐fidelity electromagnetic simulations and customized space mapping

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - INTERNATIONAL JOURNAL OF NUMERICAL MODELLING-ELECTRONIC NETWORKS DEVICES AND FIELDS - Year 2020

  Electromagnetic (EM) simulations have become an indispensable tool in the design of contemporary antennas. EM‐driven tasks, for example, parametric optimization, entail considerable computational efforts, which may be reduced by employing surrogate models. Yet, data‐driven modelling of antenna characteristics is largely hindered by the curse of dimensionality. This may be addressed using the recently reported domain‐confinement...

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• Cost-Efficient Surrogate Modeling of High-Frequency Structures Using Nested Kriging with Automated Adjustment of Model Domain Lateral Dimensions

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS - Year 2020

  Surrogate models are becoming popular tools of choice in mitigating issues related to the excessive cost of electromagnetic (EM)-driven design of high-frequency structures. Among available techniques, approximation modeling is by far the most popular due to its versatility. In particular, the surrogates are exclusively based on the sampled simulation data with no need to involve engineering insight or problem-specific knowledge....

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• Design-oriented computationally-efficient feature-based surrogate modelling of multi-band antennas with nested kriging

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS - Year 2020

  Design of modern antenna structures heavily depends on electromagnetic (EM) simulation tools. EM analysis provides reliable evaluation of increasingly complex designs but tends to be CPU intensive. When multiple simulations are needed (e.g., for parameters tuning), the aggregated simulation cost may become a serious bottleneck. As one possible way of mitigating the issue, the recent literature fosters utilization of faster representations,...

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• Design-oriented modeling of antenna structures by means of two-level kriging with explicit dimensionality reduction

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS - Year 2020

  The employment of full-wave electromagnetic (EM) analysis is a practical necessity in the design of contemporary antenna structures. This is because simpler models are generally not available or of limited accuracy. At the same time, EM-based design is computationally expensive. Consequently, the ways of accelerating tasks such as parametric optimization or uncertainty quantification have to be sought. A possible workaround that...

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• Design-Oriented Two-Stage Surrogate Modeling of Miniaturized Microstrip Circuits with Dimensionality Reduction

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska
  • M. Al-hasan

  - IEEE Access - Year 2020

  Contemporary microwave design heavily relies on full-wave electromagnetic (EM) simulation tools. This is especially the case for miniaturized devices where EM cross-coupling effects cannot be adequately accounted for using equivalent network models. Unfortunately, EM analysis incurs considerable computational expenses, which becomes a bottleneck whenever multiple evaluations are required. Common simulation-based design tasks include...

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• Editorial for the special issue on advances in forward and inverse surrogate modeling for high-frequency design

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - INTERNATIONAL JOURNAL OF NUMERICAL MODELLING-ELECTRONIC NETWORKS DEVICES AND FIELDS - Year 2020

  The design of modern‐day high‐frequency devices and circuits, including microwave/RF, antenna and photonic components, historically has relied on full‐wave electromagnetic (EM) simulation tools. Initially used for design verification, EM simulations are nowadays used in the design process itself, for example, for finding optimum values of geometry and/or material parameters of the structures of interest. In a growing number of...

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• Enhanced-Performance Circularly Polarized MIMO Antenna with Polarization/Pattern Diversity

  Publication

  • U. Ullah
  • I. Mabrouk
  • S. Kozieł

  - IEEE Access - Year 2020

  Design of a compact wideband circularly polarized (CP) multiple-input multiple-output (MIMO) antenna with polarization diversity is proposed and characterized for off-body communication. The antenna is based on a simple coplanar waveguide (CPW)-fed monopole extension of the microstrip line. The orthogonal field components required by CP are induced using a simply modified right/left side ground plane. In particular, a stub extending...

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• Expedited antenna optimization with numerical derivatives and gradient change tracking

  Publication

  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - ENGINEERING COMPUTATIONS - Year 2020

  Design automation has been playing an increasing role in the development of novel antenna structures for various applications. One of its aspects is electromagnetic (EM)-driven design closure, typically applied upon establishing the antenna topology, and aiming at adjustment of geometry parameters to boost the performance figures as much as possible. Parametric optimization is often realized using local methods given usually reasonable...

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• Expedited Design Closure of Antenna Input Characteristics by Trust Region Gradient Search and Principal Component Analysis

  Publication

  • J. Tomasson
  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - IEEE Access - Year 2020

  Optimization-based parameter tuning has become an inherent part of contemporary antenna design process. For the sake of reliability, it is typically conducted at the level of full-wave electromagnetic (EM) simulation models. This may incur considerable computational expenses depending on the cost of an individual EM analysis, the number of adjustable variables, the type of task (local, global, single-/multi-objective optimization),...

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

  Publication

  • S. Kozieł
  • A. Pietrenko-Dąbrowska

  - IEEE Access - Year 2020

  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...

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• Expedited Globalized Antenna Optimization by Principal Components and Variable-Fidelity EM Simulations: Application to Microstrip Antenna Design

  Publication

  • J. Tomasson
  • A. Pietrenko-Dąbrowska
  • S. Kozieł

  - Electronics - Year 2020

  Parameter optimization, also referred to as design closure, is imperative in the development of modern antennas. Theoretical considerations along with rough dimension adjustment through supervised parameter sweeping can only yield initial designs that need to be further tuned to boost the antenna performance. The major challenges include handling of multi-dimensional parameter spaces while accounting for several objectives and...

  Full text available to download