From High-SNR Radar Signal to ECG: A Transfer Learning Model with Cardio-Focusing Algorithm for Scenarios with Limited Data

Yuanyuan Zhang; Haocheng Zhao; Sijie Xiong; Rui Yang; Eng Gee Lim; Yutao Yue

doi:10.1109/TMC.2025.3625051

From High-SNR Radar Signal to ECG: A Transfer Learning Model with Cardio-Focusing Algorithm for Scenarios with Limited Data

Yuanyuan Zhang
, Haocheng Zhao
, Sijie Xiong
, Rui Yang^*
, Eng Gee Lim
, Yutao Yue^*

^*Corresponding author for this work

University of Liverpool
JITRI
Kyushu University
Hong Kong University of Science and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Electrocardiogram (ECG), as a crucial fine-grained cardiac feature, has been successfully recovered from radar signals in the literature, but the performance heavily relies on the high-quality radar signal and numerous radar-ECG pairs for training, restricting the applications in new scenarios due to data scarcity. Therefore, this work focuses on radar-based ECG recovery in new scenarios with limited data and proposes a cardio-focusing and-tracking (CFT) algorithm to precisely track the cardiac location to ensure an efficient acquisition of high quality radar signals. Furthermore, a transfer learning model (RFcardi) is proposed to extract cardio-related information from the radar signal without ECG ground truth based on the intrinsic sparsity of cardiac features, and only a few synchronous radar ECG pairs are required to fine-tune the pre-trained model for ECG recovery. The experimental results reveal that the proposed CFT can dynamically identify the cardiac location, and the RFcardi model can effectively generate faithful ECG recoveries after using a small number of radar-ECG pairs for training. The code and dataset will be made available after publication.

Original language	English
Journal	IEEE Transactions on Mobile Computing
Early online date	23 Oct 2025
DOIs	https://doi.org/10.1109/TMC.2025.3625051
Publication status	E-pub ahead of print - 23 Oct 2025

Keywords

Contactless Vital Sign Monitoring
Derivative-Free Optimization
Radar-Based Sensing
Transfer Learning

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10.1109/TMC.2025.3625051

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title = "From High-SNR Radar Signal to ECG: A Transfer Learning Model with Cardio-Focusing Algorithm for Scenarios with Limited Data",

abstract = "Electrocardiogram (ECG), as a crucial fine-grained cardiac feature, has been successfully recovered from radar signals in the literature, but the performance heavily relies on the high-quality radar signal and numerous radar-ECG pairs for training, restricting the applications in new scenarios due to data scarcity. Therefore, this work focuses on radar-based ECG recovery in new scenarios with limited data and proposes a cardio-focusing and-tracking (CFT) algorithm to precisely track the cardiac location to ensure an efficient acquisition of high quality radar signals. Furthermore, a transfer learning model (RFcardi) is proposed to extract cardio-related information from the radar signal without ECG ground truth based on the intrinsic sparsity of cardiac features, and only a few synchronous radar ECG pairs are required to fine-tune the pre-trained model for ECG recovery. The experimental results reveal that the proposed CFT can dynamically identify the cardiac location, and the RFcardi model can effectively generate faithful ECG recoveries after using a small number of radar-ECG pairs for training. The code and dataset will be made available after publication.",

keywords = "Contactless Vital Sign Monitoring, Derivative-Free Optimization, Radar-Based Sensing, Transfer Learning",

author = "Yuanyuan Zhang and Haocheng Zhao and Sijie Xiong and Rui Yang and Lim, \{Eng Gee\} and Yutao Yue",

note = "Publisher Copyright: {\textcopyright} 2002-2012 IEEE.",

year = "2025",

month = oct,

day = "23",

doi = "10.1109/TMC.2025.3625051",

language = "English",

journal = "IEEE Transactions on Mobile Computing",

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T2 - A Transfer Learning Model with Cardio-Focusing Algorithm for Scenarios with Limited Data

AU - Zhang, Yuanyuan

AU - Zhao, Haocheng

AU - Xiong, Sijie

AU - Yang, Rui

AU - Lim, Eng Gee

AU - Yue, Yutao

PY - 2025/10/23

Y1 - 2025/10/23

N2 - Electrocardiogram (ECG), as a crucial fine-grained cardiac feature, has been successfully recovered from radar signals in the literature, but the performance heavily relies on the high-quality radar signal and numerous radar-ECG pairs for training, restricting the applications in new scenarios due to data scarcity. Therefore, this work focuses on radar-based ECG recovery in new scenarios with limited data and proposes a cardio-focusing and-tracking (CFT) algorithm to precisely track the cardiac location to ensure an efficient acquisition of high quality radar signals. Furthermore, a transfer learning model (RFcardi) is proposed to extract cardio-related information from the radar signal without ECG ground truth based on the intrinsic sparsity of cardiac features, and only a few synchronous radar ECG pairs are required to fine-tune the pre-trained model for ECG recovery. The experimental results reveal that the proposed CFT can dynamically identify the cardiac location, and the RFcardi model can effectively generate faithful ECG recoveries after using a small number of radar-ECG pairs for training. The code and dataset will be made available after publication.

AB - Electrocardiogram (ECG), as a crucial fine-grained cardiac feature, has been successfully recovered from radar signals in the literature, but the performance heavily relies on the high-quality radar signal and numerous radar-ECG pairs for training, restricting the applications in new scenarios due to data scarcity. Therefore, this work focuses on radar-based ECG recovery in new scenarios with limited data and proposes a cardio-focusing and-tracking (CFT) algorithm to precisely track the cardiac location to ensure an efficient acquisition of high quality radar signals. Furthermore, a transfer learning model (RFcardi) is proposed to extract cardio-related information from the radar signal without ECG ground truth based on the intrinsic sparsity of cardiac features, and only a few synchronous radar ECG pairs are required to fine-tune the pre-trained model for ECG recovery. The experimental results reveal that the proposed CFT can dynamically identify the cardiac location, and the RFcardi model can effectively generate faithful ECG recoveries after using a small number of radar-ECG pairs for training. The code and dataset will be made available after publication.

KW - Contactless Vital Sign Monitoring

KW - Derivative-Free Optimization

KW - Radar-Based Sensing

KW - Transfer Learning

UR - https://www.scopus.com/pages/publications/105019931677

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DO - 10.1109/TMC.2025.3625051

M3 - Article

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SN - 1536-1233

JO - IEEE Transactions on Mobile Computing

JF - IEEE Transactions on Mobile Computing

ER -

From High-SNR Radar Signal to ECG: A Transfer Learning Model with Cardio-Focusing Algorithm for Scenarios with Limited Data

Abstract

Keywords

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