P
Pei-Yuan Qin
Researcher at University of Technology, Sydney
Publications - 120
Citations - 3163
Pei-Yuan Qin is an academic researcher from University of Technology, Sydney. The author has contributed to research in topics: Reconfigurable antenna & Microstrip antenna. The author has an hindex of 26, co-authored 104 publications receiving 2254 citations. Previous affiliations of Pei-Yuan Qin include Commonwealth Scientific and Industrial Research Organisation & Northwestern Polytechnical University.
Papers
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Journal ArticleDOI
Polarization Reconfigurable U-Slot Patch Antenna
TL;DR: In this article, a compact U-slot microstrip patch antenna with reconfigurable polarization is proposed for wireless local area network (WLAN) applications, which enables switching between linear and circular polarization by using a PIN diode and a capacitor located on the U- slot.
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A Pattern Reconfigurable U-Slot Antenna and Its Applications in MIMO Systems
TL;DR: In this paper, a new compact pattern reconfigurable U-slot antenna is presented, which can operate in either monopolar patch or normal patch mode in similar frequency ranges, and its radiation pattern can be switched between conical and boresight patterns electrically.
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A Reconfigurable Partially Reflective Surface (PRS) Antenna for Beam Steering
TL;DR: In this paper, a novel partially reflective surface (PRS) antenna with the capability of beam steering is presented, which is realized by employing a reconfigurable PRS structure to achieve a changeable reflection phase as well as using a phased array as the source to excite the PRS antenna.
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Frequency Reconfigurable Quasi-Yagi Folded Dipole Antenna
TL;DR: In this article, a frequency reconfigurable planar quasi-Yagi antenna with a folded dipole driver element is presented, which can operate in either the 5.3-6.6 GHz band or the 6.4-8 GHz band.
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Pattern-Reconfigurable Antenna With Five Switchable Beams in Elevation Plane
TL;DR: This letter proposes a novel pattern-reconfigurable antenna that provides an efficient solution for wireless communications by reconfiguring parasitic striplines placed around a radiating dipole and reflecting metal pieces under the dipole using p-i-n diodes.