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- Title
Modeling of sectionally continuous communication channel with inhomogeneously distributed tissues.
- Authors
Shuang Zhang; Yu-Ping Qin; Jiang-Ming Kuang; Yi-He Liu; Ji-Ning Yang; Fu-Cheng Yin; Zhang, Shuang; Qin, Yu-Ping; Kuang, Jiang-Ming; Liu, Yi-He; Yang, Ji-Ning; Yin, Fu-Cheng
- Abstract
<bold>Background: </bold>This study aimed to investigate effects on the transmission channel caused by heterogeneous distribution in tissues and joint characteristics.<bold>Method: </bold>Human arm section scans were taken using CT technology, and zoned, following which, a circumference measurement experiment was performed to analyze the effect of inhomogeneous distribution of tissues. In order to analyze the arm joint's effect on channel transmission, we proposed a piecewise modeling method in combination with connection conditions.<bold>Conclusions: </bold>It can be seen from the experiment that, in the quasi-static mode, the communication channel error caused by the inhomogeneous distribution of tissues is small enough to be negligible. The error between calculated and experimental results is reduced by 3.93 dB in this experiment relative to models that did not include joint characteristics, and the average error is lowered by 0.73 dB. The variation curve fit to experimental data is also improved in this method. As such, it can be quantitatively determined that a channel model with joint characteristics is superior to models excluding joint characteristics.
- Subjects
TISSUES; ARM; JOINTS (Anatomy); COMPUTED tomography; QUASISTATIC processes; ELBOW physiology; SKELETAL muscle physiology; AMBULATORY electrocardiography; BIOLOGICAL models; BIOTELEMETRY; ANATOMY
- Publication
Technology & Health Care, 2017, Vol 25, Issue 6, p1097
- ISSN
0928-7329
- Publication type
journal article
- DOI
10.3233/THC-170882