inż. Weronika Kalista
Employment
Keywords Help
- 3-d printing
- 3d printing , additive manufacturing , cubesat , fifth-generation (5 g) communication , internet-of-things , millimeter-wave antenna , passive multi-beam antennas , reconfigurable antennas , switched-beam antennas
- 5g, switched-beam antenna, reconfigurable antenna, beam control, lens antenna, antenna array, direction-of- arrival estimation, internet-of-things, wireless sensor networks, espar antenna, eres antenna, 3d printing.
- additive manufacturing
- dielectric lens antenna, circularly polarized antenna, 3d printing, v2x communication
- fifth-generation (5g) communication
- internet-of- things
- passive multibeam antennas
- retrodirective arrays, van atta arrays, millimeter-wave antenna, chipless radio-frequency identification, 3d printing, lenses, additive manufacturing, sustainability, circular economy
Business contact
- Location
- Al. Zwycięstwa 27, 80-219 Gdańsk
- Phone
- +48 58 348 62 62
- biznes@pg.edu.pl
Contact
- weronika.kalista@pg.edu.pl
Publication showcase
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Multi-Beam Antenna for Ka-Band CubeSat Connectivity Using 3-D Printed Lens and Antenna Array
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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Low-cost 3D Printed Circularly Polarized Lens Antenna for 5.9 GHz V2X Applications
This paper presents design and realization of a circularly polarized antenna consisting of a linearly polarized patch antenna and a 3D printed lens, at the same time performing the functions of wave collimator and a polarizer. The antenna is dedicated for 802.11p systems, as a part of road infrastructure, with operation bandwidth 5.85 - 5.925 GHz. Its realised gain and axial ratio at center frequency 5.9 GHz are 14.3 dBi and 2.17...
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Low-Cost 3-D Printed Lens Antenna for Ka-Band Connectivity Applications
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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