Add to ORKGOff-body wireless data communication using textile antennas integrated into clothing increases the safety of rescue workers operating in an indoor environment as vital information can be communicated to the command station. The indoor radio propagation is influenced by fading and shadowing. Yet, MIMO techniques significantly enhance the reliability of such a wireless link, producing a lower bit error rate for the same total transmitted power. Body-worn antennas experience different shadowing dependent on the body size. The performance of the MIMO link is measured for three persons of substantially different sizes and the results are compared based on outage probability and bit error rate curves. A demodulation and detection of actual transm...
We present a Body-Worn antenna system for communications in the 225MHz-380MHz band. The antenna cons...
In this paper, a wideband indoor body-to-body communication channel is characterized and analyzed in...
With the introduction of intelligent textile systems, the functionality of personal protective cloth...
Off-body wireless data communication using textile antennas integrated into clothing increases the s...
Off-body data communication for firemen and other rescue workers is an important area of development...
The safety of on-duty firefighters in indoor environments could be increased by ensuring reliable, h...
Off-body data communication for firefighters and other rescue workers is an important area of develo...
Reliable, high-data rate indoor communication is essential to transfer crucial information between f...
Reliable, high-data rate indoor communication is essential to transfer crucial information between f...
Wireless communication systems with textile antennas can be entirely integrated into clothing or gar...
In this paper, an analysis of radio channel characteristics for single- and multiple-antenna bodywor...
The performance of wireless data communication for fully equipped firemen walking indoors and commun...
A compact wearable antenna system, completely made out of textile materials for integration into pro...
Electro-textiles made by incorporating conductive threads into fabrics are as flexible and washable ...
The performance of wireless data communication links for fully equipped firemen walking indoor and c...
We present a Body-Worn antenna system for communications in the 225MHz-380MHz band. The antenna cons...
In this paper, a wideband indoor body-to-body communication channel is characterized and analyzed in...
With the introduction of intelligent textile systems, the functionality of personal protective cloth...
Off-body wireless data communication using textile antennas integrated into clothing increases the s...
Off-body data communication for firemen and other rescue workers is an important area of development...
The safety of on-duty firefighters in indoor environments could be increased by ensuring reliable, h...
Off-body data communication for firefighters and other rescue workers is an important area of develo...
Reliable, high-data rate indoor communication is essential to transfer crucial information between f...
Reliable, high-data rate indoor communication is essential to transfer crucial information between f...
Wireless communication systems with textile antennas can be entirely integrated into clothing or gar...
In this paper, an analysis of radio channel characteristics for single- and multiple-antenna bodywor...
The performance of wireless data communication for fully equipped firemen walking indoors and commun...
A compact wearable antenna system, completely made out of textile materials for integration into pro...
Electro-textiles made by incorporating conductive threads into fabrics are as flexible and washable ...
The performance of wireless data communication links for fully equipped firemen walking indoor and c...
We present a Body-Worn antenna system for communications in the 225MHz-380MHz band. The antenna cons...
In this paper, a wideband indoor body-to-body communication channel is characterized and analyzed in...
With the introduction of intelligent textile systems, the functionality of personal protective cloth...