Wyniki wyszukiwania dla: METASURFACE, 3-D PRINTING, BEAM-STEERING, RESONANT CAVITY ANTENNA, NEAR-FIELD PHASE TRANSFORMATION

• 3-D Printable Metal-Dielectric Metasurface for Risley Prism-Based Beam-Steering Antennas

  Publikacja

  • M. Y. Ali
  • A. Lalbakhsh
  • K. Singh
  • S. Kozieł
  • Ł. Gołuński

  - IEEE Access - Rok 2024

  A 3-D printable, planar, metal-dielectric metasurface-based, 2-D beam-steering system for aperture-type antennas is presented in this paper. This beam steering system, also known as the near-field meta-steering system, comprises two fully passive phase-gradient metasurfaces placed in the antenna’s nearfield region to steer the radiation beam. To address the non-uniform electric field phase of the aperture antenna, phase correction...

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• A Low-Profile 3-D Printable Metastructure for Performance Improvement of Aperture Antennas

  Publikacja

  • M. Y. Ali
  • A. Lalbakhsh
  • S. Kozieł
  • Ł. Gołuński
  • F. Ahmed
  • M. Asadnia

  - Scientific Reports - Rok 2024

  In order to increase the radiation performance of aperture-type antennas, this paper demonstrates a low-profile, planar, single-layer, three-dimensional (3-D) printable metastructure. The proposed hybridized metastructure is highly transparent as it is made out of novel hybrid meta-atoms having transmission coefficient magnitudes greater than -0.72 dB and fully complies with the near-field phase transformation principle. The hybridized...

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• Compact Electromagnetic Lens Antennas Using Cascaded Metasurfaces for Gain Enhancement and Beam Steering Applications

  Publikacja

  • R. Aziz
  • A. Singh
  • J. Park
  • S. Park
  • S. Kozieł

  - INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING - Rok 2022

  Electromagnetic (EM) lens antenna designs using cascaded metasurfaces for gain enhancement and beam steering applications are proposed. Two different lens aperture designs are proposed and populated with aperiodic unit cells of size 0.2λo × 0.2λo. In lens Design 1, the unit cells of different phases are distributed in concentric circular zones, whereas in lens Design 2, the unit cells of different phases are distributed in vertical...

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• Multi-Beam Antenna for Ka-Band CubeSat Connectivity Using 3-D Printed Lens and Antenna Array

  Publikacja

  • K. Trzebiatowski
  • W. Kalista
  • M. Rzymowski
  • Ł. Kulas
  • K. Nyka

  - IEEE Antennas and Wireless Propagation Letters - Rok 2022

  In this paper, the design of a passive multi-beam lens antenna is proposed for the CubeSat space communication system as an alternative application of a 2-D microstrip antenna array that has originally been designed for a 39 GHz 5 G MU-MIMO system. The half-ellipsoid lens is 3-D printed using stereolithography (SLA) technology. The antenna prototype is capable of selecting the main beam between 16 different directions with a gain...

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• Shape Memory Alloy-Based Fluidically Reconfigurable Metasurfaced Beam Steering Antenna

  Publikacja

  • S. Shah
  • S. Shah
  • E. Bernhardsson
  • S. Kozieł

  - IEEE Access - Rok 2023

  A low-cost actuator-based fluidically programmable metasurface (FPMS) antenna is proposed to solve the slow tuning speed problem of the manually fluidic based reconfigurable antennas. The FPMS-based antenna is probe-fed and comprises a 4 × 4 square ring metasurface as a superstrate. Moreover, two shape memory alloy (SMA)-based electrically-controlled actuators are employed in the design for controlling the position of the 3D-printed...

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• Direction-of-Arrival Estimation Using an ESPAR Antenna with Simplified Beam Steering

  Publikacja

  • Ł. Kulas

  - Rok 2017

  In this paper, it has been shown, how electronically steerable parasitic array radiator (ESPAR) antenna, in which beam steering is done in a simple way, can be used for directionof- arrival (DoA) estimation of an unknown signal impinging the antenna. The concept is based on an ESPAR antenna having twelve parasitic elements, in which beam switching is realized by RF switches providing required loads to its parasitic elements. Numerical...

• Beam Steerable MIMO Antenna Based on Conformal Passive Reflectarray Metasurface for 5G Millimeter-Wave Applications

  Publikacja

  • B. Malik
  • S. Khan
  • S. Kozieł

  - Scientific Reports - Rok 2024

  A conformal reflectarray fed by a dual-band multiple-input multiple-output (MIMO) antenna is proposed for low-cost beam steering applications in 5G Millimeter-wave frequency bands. The beam steering is accomplished by selecting a specific port in the MIMO antenna. Each MIMO port is associated with a beam that points in a different direction due to a conformal reflectarray. This novel reflectarray antenna design has the advantages...

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• Low-Cost 3-D Printed Lens Antenna for Ka-Band Connectivity Applications

  Publikacja

  • K. Trzebiatowski
  • W. Kalista
  • M. Rzymowski
  • Ł. Kulas
  • K. Nyka

  - Rok 2024

  This paper discusses the use of low-cost 3-D printing technology to fabricate dielectric lenses for Ka-band wireless networks. A low-cost FDM alternative to previously presented 3-D printed lens in SLA technology with high performance resin is presented. The presented approach has been demonstrated for a 39 GHz MU-MIMO antenna array modified to realize multibeam or switched-beam antenna that can support demanding energy-efficient...

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• Extraction of antenna pattern from near field antenna measurements distorted by undesired emission

  Publikacja

  • M. Mazur
  • W. Marynowski
  • A. Kusiek
  • W. Zieniutycz

  - Rok 2014

  In this paper authors present experimental correction of antenna pattern obtained from near field measurements when they are distorted by determined electromagnetic emission. Such situation may be met e.g. when feeding or supply subsystem interacts with antenna radiation pattern due to self-emission. Presented results of experiments show effectiveness of extraction of antenna pattern utilizing near field antenna measurements.

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• Krzysztof Nyka dr hab. inż.

  Osoby

  Katedra Inżynierii Mikrofalowej i Antenowej

  Krzysztof Nyka, absolwent Wydziału Elektroniki Telekomunikacji i Informatyki Politechniki Gdańskiej (WETI PG), gdzie  uzyskał tytuł magistra inżyniera (1986, telekomunikacja) stopień doktora nauk technicznych (2002, elektronika) i doktora habilitowanego (2020 automatyka, elektronika i elektrotechnika). Obecnie jest zatrudniony na stanowisku profesora uczelni w Katedrze Inżynierii Mikrofalowej i Antenowej WETI PG. Zainteresowania...