Bo Liang scite author profile

Human body communication (HBC), which uses the human body tissue as the transmission medium to transmit health informatics, serves as a promising physical layer solution for the body area network (BAN). The human centric nature of HBC offers an innovative method to transfer the healthcare data, whose transmission requires low interference and reliable data link. Therefore, the deployment of HBC system obtaining good communication performance is required. In this regard, a tutorial review on the important issues related to HBC data transmission such as signal propagation model, channel characteristics, communication performance, and experimental considerations is conducted. In this work, the development of HBC and its first attempts are firstly reviewed. Then a survey on the signal propagation models is introduced. Based on these models, the channel characteristics are summarized; the communication performance and selection of transmission parameters are also investigated. Moreover, the experimental issues, such as electrodes and grounding strategies, are also discussed. Finally, the recommended future studies are provided.

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Effects of human limb gestures on galvanic coupling intra-body communication for advanced healthcare system

Chen¹,

Pun²,

Zhao

et al. 2016

BioMed Eng OnLine

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BackgroundIntra-Body Communication (IBC), which utilizes the human body as the transmission medium to transmit signal, is a potential communication technique for the physiological data transfer among the sensors of remote healthcare monitoring system, in which the doctors are permitted to remotely access the healthcare data without interrupt to the patients’ daily activities.MethodsThis work investigates the effects of human limb gestures including various joint angles, hand gripping force and loading on galvanic coupling IBC channel. The experiment results show that channel gain is significantly influenced by the joint angle (i.e. gain variation 1.09–11.70 dB, p < 0.014). The extension, as well as the appearance of joint in IBC channel increases the channel attenuation. While the other gestures and muscle fatigue have negligible effect (gain variation <0.77 dB, p > 0.793) on IBC channel. Moreover, the change of joint angle on human limb IBC channel causes significant variation in bit error rate (BER) performance.ConclusionsThe results reveal the dynamic behavior of galvanic coupling IBC channel, and provide suggestions for practical IBC system design.

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The Application of Nonlinear Editing Technology in College Teaching

Liang

Jing

2012

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Investigation and Analysis on the Effect of Autonomous Learning in Colleges Based on Information Technology

Wang

Liang

2010

AMM

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Autonomous learning mode has been concerned widely in college teaching based on information technology, but the effect has yet to be tested. This thesis used the method of questionnaire survey to investigate and analyze the effect of autonomous learning in college. Then analyze the problems existing in the teaching and make corresponding countermeasures to provide a basis, which can improve independent learning in college.

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Bo Liang

A Review on Human Body Communication: Signal Propagation Model, Communication Performance, and Experimental Issues

Effects of human limb gestures on galvanic coupling intra-body communication for advanced healthcare system

The Application of Nonlinear Editing Technology in College Teaching

Investigation and Analysis on the Effect of Autonomous Learning in Colleges Based on Information Technology

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