Printed L-band monopole antenna with a modified trefoil knot structure

## Abstract A bionical structure is applied to antenna design in this letter. An L‐band printed monopole antenna using the shape of the octopus is proposed for 1.6 GHz based on the concept of bionics. Its radiation characteristics including impedance bandwidth, radiation patterns, and gain are simu

In this study, we propose a design to obtain band-notching characteristics in printed planar monopoles. An ultra-wide band was achieved by means of the beveled upper edge of the rectangular patch with dimension as small as 55 mm 2 . On the other hand, it is necessary to notch certain bands to avoid

## Abstract A novel ultra‐wideband design of a printed fork‐shaped monopole antenna with a band‐rejection characteristic is presented. The proposed antenna with a simpler structure has a larger impedance bandwidth, defined by voltage standing wave ratio ≤ 2, covering the range from 3.09 to 11 GHz,

## Abstract A printed circular‐ring monopole antenna with band‐notched feature for ultra‐wideband application has been presented and investigated. The band‐notched characteristic is achieved by attaching a C‐shaped short‐circuited stub. Experimental results show that the proposed antenna meets the

## Abstract A novel compact and ultra wideband antenna with a printed monopole structure is presented in this article. It is demonstrated that with a modified‐shape ground plane, an ultra wide bandwidth can be achieved with small radiation element size. Simulation and measurement results show that

## Abstract A broadband printed monopole antenna is proposed for digital communication systems (DCS‐1800), personal communication services (PCS1900), and international mobile telecommunication (IMT‐2000) tri‐band mobile devices. The proposed antenna is composed of two inverted L‐shaped monopoles, a