Li-Ruei Kuo scite author profile

Li-Ruei Kuo

5Publications

61Citation Statements Received

154Citation Statements Given

How they've been cited

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154

Affiliations

Yuan Ze University

Publications

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Investigations of Isolation Improvement Techniques for Multiple Input Multiple Output (Mimo) Wlan Portable Terminal Applications

Chou

Cheng

Hsu

et al. 2008

PIER

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Abstract-Various isolation improvement techniques for MIMO WLAN card bus applications consisted of three closely spaced loop antennas are presented and investigated both numerically and experimentally in this paper. The proposed techniques are easily implemented and proven effective to achieve high isolation among the antennas which is a must for MIMO terminals to receive uncorrelated signals with good system throughputs.

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Characteristic Evaluation of an Active Patch Antenna Structure with an Embedded LNA Module for GPS Reception

Chou

Kuo

Liao

2007

Journal of Electromagnetic Waves and Applications

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Realistic implementation of ellipsoidal reflector antennas to produce near‐field focused patterns

et al. 2011

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[1] The radiation characteristics of ellipsoidal reflector antennas in the near zone of antenna aperture are investigated using Physical Optics (PO) approximations. This antenna has potential applications in the near-field communications because its radiation focuses in the near zone. Analytical formulations to predict the radiation efficiency and exhibit field phenomena are developed. Its applications as a RFID reader antenna at 2.4 GHz are demonstrated by numerical simulations and measurements over a realistic implementation of offset reflector fed by a microstrip patch antenna. Both numerical and experimental studies are performed to validate this antenna design.

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A dual‐band near‐field focused reflectarray antenna for RFID applications at 0.9 and 2.4 GHz

Chou¹,

Hsueh²,

Hung³

et al. 2011

Radio Science

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This paper presents a dual‐band reflectarray antenna which operates at 0.915 and 2.4 GHz to radiate electromagnetic fields focused in the near‐zone of array aperture. The design uses two stacked feed antennas operated at 0.915 and 2.4 GHz, respectively, so that the currently available RFID systems in the market can be simultaneously used in an independent fashion. Numerical investigations on the radiation characteristics of this reflectarray, as well as an experimental validation, are presented to demonstrate its feasibility.

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Design of reflectarray antennas to achieve an optimum near‐field radiation for RFID applications via the implementation of SDM procedure

et al. 2015

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This paper presents the design of reflectarray antennas to radiate an optimum near-field distribution by using the procedure of steepest decent method to synthesize the impressed phases of reflectarray elements. In particular, the closed-form formulations used in the electromagnetic modeling were developed for an efficient design. The design was further implemented to realize a reflectarray of microstrip patch elements, which is illuminated by the radiation of a feed antenna at the 2.4 GHz band in the radio frequency identification applications. Numerical investigations as well as experimental measurements over a prototype are presented to validate the feasibility of the developed models and the implemented antenna structure.

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Li-Ruei Kuo

Investigations of Isolation Improvement Techniques for Multiple Input Multiple Output (Mimo) Wlan Portable Terminal Applications

Characteristic Evaluation of an Active Patch Antenna Structure with an Embedded LNA Module for GPS Reception

Realistic implementation of ellipsoidal reflector antennas to produce near‐field focused patterns

A dual‐band near‐field focused reflectarray antenna for RFID applications at 0.9 and 2.4 GHz

Design of reflectarray antennas to achieve an optimum near‐field radiation for RFID applications via the implementation of SDM procedure

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