@article{scholars19083,
         journal = {Progress In Electromagnetics Research M},
          volume = {120},
            year = {2023},
           title = {Wearable Dual-Band Frequency Reconfigurable Patch Antenna for WBAN Applications},
           pages = {95--111},
            note = {cited By 1},
             doi = {10.2528/PIERM23060705},
        abstract = {A wearable dual-band patch antenna is presented which can adjust its frequency for WBAN applications. Frequency reconfiguration is achieved by the antenna through the utilization of the switching properties of a PIN diode. Produced using a Rogers Duroid material with semi-flexible properties, the antenna has a size of 0.33{\^I}?0 {\~A}? 0.35{\^I}?0 {\~A}? 0.012{\^I}?0. Initially resonating at 5.8 GHz, a slot in the shape of an inverted letter U is included to introduce a dual-band operation at 2.4 GHz. By controlling the PIN diode{\^a}??s ON and OFF states, the antenna can switch between single-band (ISM 5.8 GHz) and dual-band (ISM 2.4 GHz and 5.8 GHz) operations. The antenna exhibits a bi-directional radiation pattern at 2.4 GHz and a directional pattern at 5.8 GHz. In the ON state, the antenna achieves a peak gain and total efficiency of 4.84 dBi, 5.87 dBi, 92.5, and 92.7 at 2.4 GHz and 5.8 GHz, respectively. In the OFF state at 5.8 GHz, a peak gain and total efficiency of 6.01 dBi and 91.8 are measured. To evaluate its suitability for WBAN applications, the antenna{\^a}??s performance is assessed by measuring SAR values on a human tissue model. At 2.4 GHz, the SAR values for 1/10 g of human tissue are 0.411/0.177 W/kg respectively. Similarly, at 5.8 GHz, the SAR values are 0.438/0.158 W/kg respectively. The SAR values comply with the established standards of the FCC and ICNIRP for both resonance frequencies for human tissue weighing 1/10 g. Overall, the antenna boasts a compact size, acceptable SAR values, and satisfactory gain and efficiency across all operating bands, surpassing previous works. It also benefits from a simplified design employing a single switch, and the antenna remains a suitable choice for WBAN applications considering its other advantageous characteristics mentioned above. {\^A}{\copyright} 2023, Electromagnetics Academy. All rights reserved.},
          author = {Musa, U. and Mohd Shah, S. and Majid, H. A. and Rahim, M. K. A. and Yahya, M. S. and Yunusa, Z. and Salisu, A. and Zainal Abidin, Z.},
             url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85175052772&doi=10.2528\%2fPIERM23060705&partnerID=40&md5=a66d36723f71b6dea83d5c4cba4140fd},
        keywords = {Directive antennas; Microstrip antennas; Microwave antennas; Radiation efficiency; Semiconductor diodes; Slot antennas; Tissue; Wearable antennas; Wireless local area networks (WLAN), Band frequencies; Dual Band; Dual-band patch antenna; Gain efficiency; Human tissues; Peak gain; Property; Reconfigurable; Switching properties; Total efficiency, Directional patterns (antenna)}
}