Dual-band antenna design using genetic algorithm-generated topology

## Abstract For the dual‐band (GSM/DCS) operation, the second‐order resonance is used to operate in the high frequency range. To control the bandwidth characteristics in each band, an intercoupling capacitance between the radiating elements is utilized to satisfy the bandwidth requirements of GSM (

## Abstract In this article, we have introduced dual‐band antenna with M‐shaped open stub for wideband local area network (WLAN)/ultra‐wideband (UWB) applications. The M‐shaped open stub is inserted into the proposed antenna for WLAN operation. The proposed antenna is fabricated and measured. Param

## Abstract In this article, a method for the computer aided design of ultra‐wideband (UWB) printed planar monopoles using double population genetic algorithm and finite‐difference time domain (FDTD) is presented. A novel UWB antenna is obtained successfully. The measured return loss shows an imped

mum is in the end-fire direction with higher cross-polar level and a gain of 3 dBi is observed over the VSWR BW. The area of the proposed compact MSA is 15 cm 2 , which is only 6% of the corresponding unslotted RMSA, which results in a better BW but a reduced gain. ## 6. CONCLUSION A compact varia

## Abstract A novel method of computation of input impedance detected by a feed probe leads to a simple technique of designing a dual‐band dual‐polarized microstrip antenna using a shorting‐pin‐loaded circular patch. The computation of the radiation pattern displays a slant‐polarized antenna, in wh

GHz bands have been presented. By embedding a cross-shaped slot in the radiating patch, the antenna size can be effectively reduced, and also sufficient impedance bandwidth and good radiation performance for WLAN applications can be obtained. REFERENCES