Add to ORKGThe integration of embroidered antennas into clothing is one of the best solutions for wearable wireless communication systems, such as Global Positioning System (GPS). In this work, a wearable GPS patch antenna based on a contour fill stitch pattern is designed, manufactured and tested. The simulations have been performed by means of the full 3D electromagnetic CST Microwave Studio 2016, including bending effects and complex heterogeneous human model impact. The antenna operates at the GPS L1 band (1575.42 MHz) with good performance:return loss S11 = -13 dB and gain G = -0.4 dBi at the operation frequency. Specific absorption rate (SAR) has been simulated and values under the electromagnetic radiation exposure limits have been obtained, wi...
Textile patch antennas of simple rectangular, triangular, and circular shape, for operation in the 2...
Because of the technology that is demanded today’s the microstrip patch antennas have ...
With today's advanced technology microstrip patch antennas are more flexible and stronger than ever ...
The integration of embroidered antennas into clothing is one of the best solutions for wearable wire...
The integration of embroidered antennas into clothing is one of the best solutions for wearable wire...
In this work a wearable GPS adhesive copper sheet patch antenna on jeans fabric is designed, simulat...
This paper presents a study on the performance of self-manufactured electro-textile (SME-T) antenna ...
This paper presents a study on the performance of self-manufactured electro-textile (SME-T) antenna ...
The validation of the performance of electro-textile antenna, designed for on-body communication by ...
In the context of wearable textile systems for rescue workers, the knowledge of the position of the ...
In the context of wearable textile systems for rescue workers, the knowledge of the position of the ...
In the context of wearable textile systems for rescue workers, the knowledge of the position of the ...
International audienceThis paper presents a new wearable antenna designed for Wireless Local Area Ne...
A wearable antenna integrated into a military beret for an indoor/outdoor positioning system is prop...
Because of the technology that is demanded today’s the microstrip patch antennas have ...
Textile patch antennas of simple rectangular, triangular, and circular shape, for operation in the 2...
Because of the technology that is demanded today’s the microstrip patch antennas have ...
With today's advanced technology microstrip patch antennas are more flexible and stronger than ever ...
The integration of embroidered antennas into clothing is one of the best solutions for wearable wire...
The integration of embroidered antennas into clothing is one of the best solutions for wearable wire...
In this work a wearable GPS adhesive copper sheet patch antenna on jeans fabric is designed, simulat...
This paper presents a study on the performance of self-manufactured electro-textile (SME-T) antenna ...
This paper presents a study on the performance of self-manufactured electro-textile (SME-T) antenna ...
The validation of the performance of electro-textile antenna, designed for on-body communication by ...
In the context of wearable textile systems for rescue workers, the knowledge of the position of the ...
In the context of wearable textile systems for rescue workers, the knowledge of the position of the ...
In the context of wearable textile systems for rescue workers, the knowledge of the position of the ...
International audienceThis paper presents a new wearable antenna designed for Wireless Local Area Ne...
A wearable antenna integrated into a military beret for an indoor/outdoor positioning system is prop...
Because of the technology that is demanded today’s the microstrip patch antennas have ...
Textile patch antennas of simple rectangular, triangular, and circular shape, for operation in the 2...
Because of the technology that is demanded today’s the microstrip patch antennas have ...
With today's advanced technology microstrip patch antennas are more flexible and stronger than ever ...