Title :
Shadowing-fading BER characterization of BAN antennas based on realistic walking models
Author :
Kun Li ; Honda, Kazuhiro ; Ogawa, Koichi
Author_Institution :
Grad. Sch. of Eng., Toyama Univ., Toyama, Japan
Abstract :
This paper presents analytical results on the BER degradation of QPSK signals for BAN antennas for the case where the combined outcome of shadowing and multipath fading emerge simultaneously and different types of human walking models are employed in the analysis. The results show that a probability of a low signal level is higher than that for the Rayleigh distribution owing to shadowing caused by the movement of the arms, resulting in the significant impact of arm-swinging on the BER performance of body-attached BAN devices. Furthermore, statistical measurements of human walking motion using a number of human subjects are conducted. Using the measured data, dynamic analytical models are created to show that different types of human walking models have appreciable effects on the BER performance of BAN antenna systems.
Keywords :
antennas; error statistics; multipath channels; probability; quadrature phase shift keying; statistical analysis; BAN antennas; BER performance; QPSK signals; Rayleigh distribution; body-attached BAN devices; dynamic analytical models; human subjects; human walking model; multipath fading; probability; realistic walking model; shadowing-fading BER characterization; statistical measurements; Analytical models; Bit error rate; Dipole antennas; Fading; Legged locomotion; Shadow mapping; Arm movement; BER Characterization; Body area network (BAN); Dynamic channel model; Multipath fading; Shadowing;
Conference_Titel :
Medical Information and Communication Technology (ISMICT), 2013 7th International Symposium on
Conference_Location :
Tokyo
Print_ISBN :
978-1-4673-5770-8
Electronic_ISBN :
2326-828X
DOI :
10.1109/ISMICT.2013.6521726
