NFDI4DS | UHH-SEMS - Publication Details

Dongming Li

ORCID: 0009-0006-7606-5566

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About

Contact & Profiles

A5114685593

Research Areas

Neuroscience and Neural Engineering
Cardiac pacing and defibrillation studies
Radio Frequency Integrated Circuit Design
Molecular Communication and Nanonetworks
Wireless Body Area Networks
ECG Monitoring and Analysis
Wireless Power Transfer Systems
Muscle activation and electromyography studies
Advanced Battery Technologies Research
Advanced Power Amplifier Design

Analog Devices (United States)
2024-2025

University of Macau
2023-2025

Fuzhou University
2020-2023

Dynamic Path Gain Compensation for Enhancing Intracardiac Communication in Leadless Pacemakers

OPENALEX - Publications

Dongming Li Zhijiong Wang Han Wang Sio Hang Pun Peng Un Mak and 6 more

10.1109/tim.2025.3551478 article EN IEEE Transactions on Instrumentation and Measurement 2025-01-01

A Time-varying Equivalent Circuit Modeling and Measuring Approach for Intracardiac Communication in Leadless Pacemakers

OPENALEX - Publications

Ziliang Wei Han Wang Dongming Li Mang I Vai Sio Hang Pun and 3 more

Intracardiac wireless communication is crucial for the development of multi-chamber leadless cardiac pacemakers (LCP). However, time-varying characteristics intracardiac channel pose major challenges. As such, mastering dynamic conduction properties and modeling equivalent are imperative realizing LCP pacing. In this article, we present a limiting volume variational approach based on electrical tissues trends in chamber variation. This was used to establish quasi-static continuous circuit...

10.1109/tbcas.2024.3360997 article EN IEEE Transactions on Biomedical Circuits and Systems 2024-08-01

A Differential Analog Receiver Front-End for Galvanic-Coupled Human Body Communication

OPENALEX - Publications

Dongming Li Jiahui Wu Yueming Gao Min Du Željka Lučev Vasić and 1 more

The galvanic-coupled human body communication (HBC) has come out as an alternative to radio frequency for connecting miniaturized wearable, implantable devices in, on the body. existed researches focused channel characteristics measurement, less transceiver. analog front-end (AFE) circuit is significant part of In this paper, a wearable AFE proposed, which can be utilized subsequent signal recovery or demodulation. Differential input and filter hold circuits are used get rid interference...

10.1109/i2mtc43012.2020.9129269 article EN 2022 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) 2020-05-01

Preliminary Research on Super-Regenerative Receiver for Intracardiac Communication

OPENALEX - Publications

Xueyu Weng Dongming Li Wenxiang Zhao Sio Hang Pun Mang I Vai and 1 more

Existing commercial pacemakers only provide single-chamber pacing and cannot achieve multi-chamber sequential pacing. Conduction Intracardiac Communication(CIC) has the characteristics of low power consumption high security, which is very suitable for communication between leadless pacemakers. Because pacemaker needs to be implanted into heart, limits its volume, consumption, other related parameters, super-regenerative circuit simple structure, receiver scheme a good choice intracardial...

10.1109/csrswtc60855.2023.10427324 article EN 2021 Cross Strait Radio Science and Wireless Technology Conference (CSRSWTC) 2023-11-10

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