Shahid Habib scite author profile

This paper presents a polarization-independent 11-bit chipless RFID tag based on frequency-selective surface which has been designed for encoding and relative humidity (RH) sensing applications. The 10 exterior U-shaped resonators are used for item encoding whereas Kapton has been incorporated with the interior resonator for RH sensing. This radio-frequency identification (RFID) tag operates in S- and C-frequency bands. The proposed design offers enhanced fractional bandwidth up to 88% with the density of 4.46 bits/cm2. Both single- and dual-layer tags have been investigated. The simulated results are in good agreement with measured results and a comparison with existing literature is presented to show the performance. Simple geometry, high code density, large frequency signature bandwidth, high magnitude bit, high radar cross-section, and angular stability for more than 75° are the unique outcomes of the proposed design. In addition, RH sensing has been achieved by integrating the Kapton on the same RFID tag.

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Mobile Phone Signals Interference Cancellation With Improved WLAN Transmission and Thermal Insulation of Buildings Using FSS and RC Film

Habib

Kiani

Butt

2020

IEEE Microw. Wireless Compon. Lett.

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Interference mitigation and WLAN efficiency in modern buildings using energy saving techniques and FSS

Habib

Kiani

Butt

2016

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An efficient UWB FSS for electromagnetic shielding

Habib

Kiani

Butt

2017

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Shahid Habib

A Convoluted Frequency Selective Surface for Wideband Communication Applications

A low-profile FSS-based high capacity chipless RFID tag for sensing and encoding applications

Mobile Phone Signals Interference Cancellation With Improved WLAN Transmission and Thermal Insulation of Buildings Using FSS and RC Film

Interference mitigation and WLAN efficiency in modern buildings using energy saving techniques and FSS

An efficient UWB FSS for electromagnetic shielding

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