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A Reconfigurable Impedance Matching Method for Magnetic-Coupling-Based Near-Field Human Body Communication
Journal article
Ziliang Wei, Shuang Yang, Zhizhang Chen, Mang I Vai, Sio Hang Pun, Jiejie Yang, Yueming Gao. A Reconfigurable Impedance Matching Method for Magnetic-Coupling-Based Near-Field Human Body Communication[J]. IEEE Transactions on Antennas and Propagation, 2024.
Authors:
Ziliang Wei
;
Shuang Yang
;
Zhizhang Chen
;
Mang I Vai
;
Sio Hang Pun
; et al.
Favorite
|
TC[Scopus]:
0
IF:
4.6
/
5.0
|
Submit date:2024/08/26
Human Body Communication (Hbc)
Magnetic Resonance Coupling
Impedance Matching
Reconfigurable Method
Magnetic Quasi-static Hbc
A Time-varying Equivalent Circuit Modeling and Measuring Approach for Intracardiac Communication in Leadless Pacemakers
Journal article
Ziliang Wei, Han Wang, Dongming Li, VAI MANG I, PUN Sio Hang, Jiejie Yang, Min Du, Yueming Gao. A Time-varying Equivalent Circuit Modeling and Measuring Approach for Intracardiac Communication in Leadless Pacemakers[J]. IEEE Transactions on Biomedical Circuits and Systems, 2024, 18(4), 872-884.
Authors:
Ziliang Wei
;
Han Wang
;
Dongming Li
;
VAI MANG I
;
PUN Sio Hang
; et al.
Favorite
|
TC[WOS]:
1
TC[Scopus]:
1
IF:
3.8
/
4.8
|
Submit date:2024/02/14
Intracardiac Communication
Leadless Pacemakers
Time-varying Equivalent Model
Intracardiac Circuit Phantom
A Preliminary Exploration of Magnetic Resonance Coupled Human Body Communication in Out-To-In Body Transmission for Leadless Pacemakers
Conference paper
Yang, Shuang, Wei, Ziliang, Chen, Lina, Liu, Hanyue, Pun, Sio Hang, Vai, Mang I., Gao, Yueming. A Preliminary Exploration of Magnetic Resonance Coupled Human Body Communication in Out-To-In Body Transmission for Leadless Pacemakers[C]:Institute of Electrical and Electronics Engineers Inc., 2024.
Authors:
Yang, Shuang
;
Wei, Ziliang
;
Chen, Lina
;
Liu, Hanyue
;
Pun, Sio Hang
; et al.
Favorite
|
TC[Scopus]:
0
|
Submit date:2024/08/05
Leadless Pacemakers
Magnetic Resonant Coupling
Programmable Control
Wireless Communication
Field-Circuit Combination Method for Solving the Detuning Problem of Magnetic Resonance Human Body Communication
Journal article
Huang, Lixuan, Wei, Ziliang, Chen, Bingheng, Pun, Sio Hang, Vai, Mang I., Gao, Yueming. Field-Circuit Combination Method for Solving the Detuning Problem of Magnetic Resonance Human Body Communication[J]. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, 2024, 8(2), 94-101.
Authors:
Huang, Lixuan
;
Wei, Ziliang
;
Chen, Bingheng
;
Pun, Sio Hang
;
Vai, Mang I.
; et al.
Favorite
|
TC[WOS]:
1
TC[Scopus]:
1
IF:
3.0
/
2.8
|
Submit date:2024/05/16
Coils
Couplings
Dual Tunable Capacitors
Electromagnetics
Field-circuit Combination
Finite Element Method (Fem)
Impedance
Impedance Matching
Individual Variability
Magnetic Resonance
Magnetic Resonance Human Body Communication (Mr Hbc)
Muscles
Skin
A Preliminary Study of Frequency Shift Mechanism in Magnetic Resonance Coupled Human Body Communication
Conference paper
Chen Lina, Wang Jiamei, Wei Ziliang, PUN SIO HANG, Vai Mang I, Gao Yueming. A Preliminary Study of Frequency Shift Mechanism in Magnetic Resonance Coupled Human Body Communication[C], 2023.
Authors:
Chen Lina
;
Wang Jiamei
;
Wei Ziliang
;
PUN SIO HANG
;
Vai Mang I
; et al.
Favorite
|
|
Submit date:2024/08/26
A Channel Gain Measurement Method for Magnetic Resonance Human Body Communication
Conference paper
Chen Bingheng, Wei Ziliang, Huang Lixuan, Pun Sio Hang, Vai Mang I, Gao Yueming. A Channel Gain Measurement Method for Magnetic Resonance Human Body Communication[C], 2023.
Authors:
Chen Bingheng
;
Wei Ziliang
;
Huang Lixuan
;
Pun Sio Hang
;
Vai Mang I
; et al.
Favorite
|
|
Submit date:2024/08/26
A Visible Human Data-Based Whole-Body Model for Investigating the Transmission Attenuation of Intrabody Communication
Journal article
Ziliang Wei, Yueming Gao, Zhizhang Chen, Sio Hang Pun, Mang I Vai, Min Du. A Visible Human Data-Based Whole-Body Model for Investigating the Transmission Attenuation of Intrabody Communication[J]. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2022, 70(8), 3827-3837.
Authors:
Ziliang Wei
;
Yueming Gao
;
Zhizhang Chen
;
Sio Hang Pun
;
Mang I Vai
; et al.
Favorite
|
TC[WOS]:
2
TC[Scopus]:
4
IF:
4.1
/
4.2
|
Submit date:2022/08/06
Solid Modeling
Data Models
Biological System Modeling
Attenuation
Electrodes
Legged Locomotion
Phantoms
Field-circuit Model
Finite Element Model(Fem)
Intrabody Communication()Ibc
Transmission Attenuation
Visible Human Data(Vhd)
A Comparative Study of the Electrodes Gels' Electrical Properties in the Measurement Issues of Intrabody Communication
Journal article
Lin, Fengjie, Wei, Ziliang, Yang, Jiejie, Wen, Yangrong, Gao, Yueming, Pun, Sio Hang, Vai, Mang I., Du, Min. A Comparative Study of the Electrodes Gels' Electrical Properties in the Measurement Issues of Intrabody Communication[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2022, 31(1), 71-80.
Authors:
Lin, Fengjie
;
Wei, Ziliang
;
Yang, Jiejie
;
Wen, Yangrong
;
Gao, Yueming
; et al.
Favorite
|
TC[Scopus]:
0
|
Submit date:2022/03/04
Channel Characteristic Measurement
Conductivity
Gel Electrodes
Intrabody Communication
Permittivity
A Comparative Study of the Electrodes Gels’ Electrical Properties in the Measurement Issues of Intrabody Communication
Journal article
Fengjie Lin, Ziliang Wei, Jiejie Yang, Yangrong Wen, Yueming Gao, Sio Hang Pun, Mang I Vai, Min Du. A Comparative Study of the Electrodes Gels’ Electrical Properties in the Measurement Issues of Intrabody Communication[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2022, 31(1), 71-80.
Authors:
Fengjie Lin
;
Ziliang Wei
;
Jiejie Yang
;
Yangrong Wen
;
Yueming Gao
; et al.
Favorite
|
TC[Scopus]:
0
|
Submit date:2022/08/28
Intrabody Communication
Channel Characteristic Measurement
Gel Electrodes
Permittivity
Conductivity
A Visible Human Data-Based Whole-Body Model for Investigating the Transmission Attenuation of Intrabody Communication
Journal article
Wei, Ziliang, Gao, Yueming, Chen, Zhizhang, Pun, Sio Hang, Vai, Mang I., Du, Min. A Visible Human Data-Based Whole-Body Model for Investigating the Transmission Attenuation of Intrabody Communication[J]. IEEE Transactions on Microwave Theory and Techniques, 2022.
Authors:
Wei, Ziliang
;
Gao, Yueming
;
Chen, Zhizhang
;
Pun, Sio Hang
;
Vai, Mang I.
; et al.
Favorite
|
TC[WOS]:
2
TC[Scopus]:
4
IF:
4.1
/
4.2
|
Submit date:2022/08/05
Attenuation
Biological System Modeling
Data Models
Electrodes
Field-circuit Model
Finite Element Model (Fem)
Intrabody Communication (Ibc)
Legged Locomotion
Phantoms
Solid Modeling
Transmission Attenuation
Visible Human Data (Vhd)