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In wireless body area network, capacitive-coupling body channel communication (CC-BCC) has the potential to attain better energy efficiency over conventional wireless communication schemes. The CC-BCC scheme utilizes the human body as the forward signal transmission medium, reducing the path loss in wireless body-centric communications. However, the backward path is formed by the coupling capacitance...
Body channel communication (BCC) is one of the best candidates for communications in wireless body sensor networks as it uses the human body as transmission media to minimize transmission loss resulting better energy efficiency. The main issue of BCC is the loss in its backward path, which is formed by the capacitive coupling between two floated GND electrodes (GEs) of transmitter (TX) and receiver...
Body channel communication (BCC) is one of the best candidates for facilitating communications among multiple sensors in a wireless body area network (WBAN). The low transmission loss and antenna-less communication makes it well suited for wearable wireless biomedical sensors. The IEEE 802.15.6 standard for Human Body Communication (HBC) placed a very stringent requirement on transmit spectral mask,...
Body channel communication (BCC) is a most power efficient way for communications among sensors in a wireless body-area network (WBAN). In BCC, the forward signal of the quasi-static field is conducted by the body surface, whereas the backward path is formed by the electrostatic coupling between the GND electrodes (GEs) of transmitter and receiver. As a result, the transmission loss is dominated by...
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