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Üner, İbrahim

Profile URL
https://hdl.handle.net/11499/66762
Name Variants
Üner, İ. Üner, I Üner, İ Üner, I. Uner, Ibrahim
Job Title
Dr. Öğr. Üyesi
Email Address
iuner@pau.edu.tr
Main Affiliation
04.06. Textile and Fashion Design
Status
Current Staff
Website
ORCID ID
0000-0002-4669-5894
Scopus Author ID
58352102800
Turkish CoHE Profile ID
44159BB785488110
Google Scholar ID
WoS Researcher ID
ECE-9819-2022
No research topics data found.

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Documents

5

Citations

6

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1

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Documents

4

Citations

6

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Scholarly Output

3

Articles

1

Views / Downloads

18/0

Supervised MSc Theses

0

Supervised PhD Theses

0

WoS Citation Count

0

Scopus Citation Count

0

Patents

0

Projects

0

WoS Citations per Publication

0.00

Scopus Citations per Publication

0.00

Open Access Source

0

Supervised Theses

0

JournalCount
Digital Product Design and Manufacturing1
EuCAP 2025 - 19th European Conference on Antennas and Propagation -- 19th European Conference on Antennas and Propagation, EuCAP 2025 -- 30 March 2025 through 4 April 2025 -- Stockholm -- 2089971
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2025 - 20263

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Author of Publication: search.filters.isAuthorOfPublication.9cbc9eec-fccb-4c0a-b242-1c47673394b0

Scholarly Output Search Results

Now showing 1 - 3 of 3
  • Article
    Key Foundations of Wearable Antennas: Textile Innovations in Material Design and Manufacturing Techniques
    (Ege Universitesi, 2026-03-30) Üner, İbrahim
    This review offers a comprehensive overview of current research on textile-based material design and production techniques in the field of wearable antenna technologies under thematic headings. The relationship between the electromagnetic properties of conductive and dielectric textile materials used in wearable antennas and the production methods of these materials has been systematically investigated. The effects of different production techniques such as bonding, embroidery, weaving and printing on antenna performance have been comparatively analyzed in terms of frequency shift, gain, bandwidth, bending strength and SAR (Specific Absorption Rate). In addition, the contributions of textile-based substrates such as denim, neoprene, polyester and jute, which are widely used in the literature, to the electromagnetic performance have been detailed. In this context, the potential offered by wearable antennas in various application areas (health, communication, energy harvesting, defense etc.) is highlighted, and directions for future research are suggested. The review aims to contribute to the literature by systematically framing the current knowledge in the field.
  • Conference Object
    Textile Embroidery FSS for Security Applications
    (Institute of Electrical and Electronics Engineers Inc., 2025-03-30) I., Üner; S., Can
    This study presents the design and development of a flexible and lightweight Frequency Selective Surface (FSS) based on woven fabric, functioning as a band-stop filter with a center frequency of 3.9 GHz. FSS, composed of periodic arrays of conductive elements, has significant applications in defense, security, and communication systems due to its ability to manipulate electromagnetic wave propagation. The FSS was designed using CST EM full wave software and simulated within the WR-229 waveguide for fabrication simplicity. Two prototypes were developed: one with 35-micron thick copper tape and another with conductive thread embroidery on a woven cotton fabric with a dielectric constant of 1.83. The woven fabric, a plain weave of cotton fibers, measured 0.6 mm in thickness and 300 g/m2. The conductive yarn preferred for the design was Shieldex Statex 117 d/f17-2 ply. Design topology validated by fabrications and measurements having the results showing resonance at approximately -50 dB at 3.91 GHz in simulations, -36 dB at 3.83 GHz for the copper tape sample, and -20.09 dB at 3.82 GHz for the embroidered FSS. The study highlights the potential of textile-based FSS in modern communication and defense applications, offering advantages in terms of flexibility, durability, and ease of integration. © 2025 European Association on Antennas and Propagation.
  • Book Part
    Next-Generation Digital Design Strategies for the Textile Industry
    (CRC Press, 2025-07-04) İ., Üner; G.K., Günaydın
    Next-generation digital design methods and Computer-Aided Design (CAD) technology are driving the transformation in the textile & fashion sectors. Digital technology is redefining the traditional design processes in textile sector. Designers rely on digital platforms for sustainability, efficiency and creativity throughout design. Digital design encompasses everything from virtual prototyping and simulation to 3D modelling. Next-Generation digital design methods in Textile industry are strongly supported with CAD system. CAD software provides designers with powerful tools to create, visualize, and refine designs at a speed previously unattainable, offering new levels of insight throughout the design process. CAD software can offer designers powerful tools to create, visualize and iterate designs as they never could have seen before within the speed. with the integration of digital design methods and CAD tools, innovations are on the rise in the textile and fashion value chain. In addition, through digital design methodologies it is possible to optimize resources and reduce waste, as well as streamline fashion industry decisions based on market demands, which promotes competitiveness and agility among other designers. In summary, the use of digital design methods and integrated production methods have provided a significant method change in the field of textile design. In addition, the utilisation of current design techniques has had a significant impact on the sector in terms of both sustainability and competitiveness. The focus of this chapter is to review the creative processes in textile design, related to design types, specific developments and digitizing CAD system integration. © 2026 Gheorghe Oancea and Panagiotis Kyratsis.