Add to ORKGThe development of woven antennas will enable novel applications in communications, sensing and safety, due to its inherent features such flexibility and textile-integration. For these reasons, this technology has attracted the attention of academic and industrial communities. However, there are still some factors hindering its extensive use. The aim of this paper is to compare woven antennas using two different technologies exploring the reasons that hinder its application. The technologies tested are: conductive linen and conductive cloth. The woven antennas are designed using a microstrip-design approach and simulations as starting base-line. In both linen and cloth technologies, the manufactured antennas observe variability in its retur...
In this work, three designs of textile antennas, namely, a rectangular microstrip patch antenna, ann...
The thesis is aimed to design textile antennas that can operate in the ISM band 5.8 GHz. Attention i...
The need for textile-based antennas originates from the development of smart textiles that emerged i...
The development of woven antennas will enable novel applications in communications, sensing and safe...
This paper is focused on using conductive threads to design flexible antennas with textile features ...
This paper presents the comparison between copper covered and copper core sheath yarn performance fo...
Flexible antennas are an important component for wearable wireless devices of the future. A comparis...
The wireless communication systems are applied in different applications such as computers, mobile p...
The wireless communication systems are applied in different applications such as computers, mobile p...
Communication technology is increasingly pervading everyday life. The rapid progress in wireless com...
This paper describes the design of a textile microstrip antenna for 2.4 GHz. Two different fabrics a...
This paper investigates the use of different techniques and conductive materials for the fabrication...
The vision and ideas of wearable computing systems describe future electronic systems as an integral...
This paper examines the advantages and challenges of creating microwave patch antennas using conduct...
The idea of using textile materials for wearable antenna design has attracted much attention in the ...
In this work, three designs of textile antennas, namely, a rectangular microstrip patch antenna, ann...
The thesis is aimed to design textile antennas that can operate in the ISM band 5.8 GHz. Attention i...
The need for textile-based antennas originates from the development of smart textiles that emerged i...
The development of woven antennas will enable novel applications in communications, sensing and safe...
This paper is focused on using conductive threads to design flexible antennas with textile features ...
This paper presents the comparison between copper covered and copper core sheath yarn performance fo...
Flexible antennas are an important component for wearable wireless devices of the future. A comparis...
The wireless communication systems are applied in different applications such as computers, mobile p...
The wireless communication systems are applied in different applications such as computers, mobile p...
Communication technology is increasingly pervading everyday life. The rapid progress in wireless com...
This paper describes the design of a textile microstrip antenna for 2.4 GHz. Two different fabrics a...
This paper investigates the use of different techniques and conductive materials for the fabrication...
The vision and ideas of wearable computing systems describe future electronic systems as an integral...
This paper examines the advantages and challenges of creating microwave patch antennas using conduct...
The idea of using textile materials for wearable antenna design has attracted much attention in the ...
In this work, three designs of textile antennas, namely, a rectangular microstrip patch antenna, ann...
The thesis is aimed to design textile antennas that can operate in the ISM band 5.8 GHz. Attention i...
The need for textile-based antennas originates from the development of smart textiles that emerged i...