A Four-Wavelength Photoplethysmography dataset for non-invasive hemoglobin assessment

Welcome to the Hb-PPG dataset repository. This dataset is designed to study physiological correlations of PPG signals within different wavelengths, and is eligible for in-depth analysis of relationships between PPG signals and hemoglobin. Hb-PPG also supports conducting joint analysis of multiple physiological parameters including body blood glucose, blood pressure and improving reliability of non-invasive hemoglobin measuring devices.------------------------------------------------------------------------------------------------------------------------------The above dataset is collected and managed by CardioWorks Team. If you have any questions about the data or relative researches, please contact us by email: liangyongbo@guet.edu.cn or liangyongbo001@gmail.com.The CardioWorks Team focuses on PPG-based portable or wearable cardiovascular health detection and disease assessment. For more research datasets and published papers, please pay attention to the following:Dataset:PPG-BP Database: https://doi.org/10.6084/m9.figshare.5459299.v5Cuff-less Blood Pressure Measurement based on Four-wavelength PPG Signals：https://doi.org/10.6084/m9.figshare.23283518.v1Published Articles:[1] Mohamed Elgendi, Richard Fletcher, Yongbo Liang, et al. The use of photoplethysmography for assessing hypertension [J]. npj Digital Medicine, 2019, 2(1):1-11.（2019）Link[2] Xudong Hu Shimin Yin, Xizhuang Zhang, Carlo Menon, Cheng Fang, Zhencheng Chen, Mohamed Elgendi* and Yongbo Liang*. Blood pressure stratification using photoplethysmography and light gradient boosting machine [J]. Frontiers in Physiology, 2023, 14(1072273): 1-11.（2023）Link[3] Yongbo Liang, Shimin Yin, Qunfeng Tang, Zhenyu Zheng, Mohamed Elgendi* and Zhencheng Chen*. Deep Learning Algorithm Classifies Heartbeat Events Based on Electrocardiogram Signals. Frontiers in Physiology, 02 October 2020. Doi: 10.3389/fphys.2020.569050. （2020）Link[4] Cheng, Peng，Chen, Zhencheng*，Li, Quanzhong，Gong, Qiong，Zhu, Jianming，Liang, Yongbo*. Atrial Fibrillation Identification With PPG Signals Using a Combination of Time-Frequency Analysis and Deep Learning. IEEE Access 8, 172692-172706 (2020). Link[5] Zhenyu Zheng, Zhencheng Chen*, Fangrong Hu, Jianming Zhu, Qunfeng Tang, Yongbo Liang*. An Automatic Diagnosis of Arrhythmias Using a Combination of CNN and LSTM Technology [J]. Electronics, 2020, 9(1): 1-15. Link[6] Yongbo Liang, Derek Abbott, Newton Howard, Kenneth Lim, Rabab Ward and Mohamed Elgendi*. How Effective Is Pulse Arrival Time for Evaluating Blood Pressure? Challenges and Recommendations from a Study Using the MIMIC Database. Journal of Clinical Medicine, 8， 1-14, doi:10.3390/jcm8030337 (2019). Link[7] Yongbo Liang, Zhencheng Chen*, Guiyong Liu, Mohamed Elgendi*. A new, short-recorded photoplethysmogram dataset for blood pressure monitoring in China. Scientific data, doi:10.1038/sdata.2018.20 (2018). Link[8] Yongbo Liang, Mohamed Elgendi*, Zhencheng Chen* & Rabab Ward. An optimal filter for short photoplethysmogram signals. Scientific data, 5, 180076, doi:10.1038/sdata.2018.76 (2018). Link[9] Yongbo Liang, Zhencheng Chen*, Rabab Ward & Mohamed Elgendi*. Hypertension Assessment Using Photoplethysmography: A Risk Stratification Approach. Journal of Clinical Medicine, 8, doi:10.3390/jcm8010012 (2018). Link[10] Yongbo Liang, Zhencheng Chen, Rabab Ward & Mohamed Elgendi*. Hypertension Assessment via ECG and PPG Signals: An Evaluation Using MIMIC Database. Diagnostics, 8, doi:10.3390/diagnostics8030065 (2018). Link[11] Yongbo Liang, Zhencheng Chen, Rabab Ward & Mohamed Elgendi*. Photoplethysmography and Deep Learning: Enhancing Hypertension Risk Stratification. Biosensors, 8，doi:10.3390/bios8040101 (2018). Link[12] Xuhao Dong Ziyi Wang, Liangli Cao, Zhencheng Chen*, Yongbo Liang*. Whale Optimization Algorithm with a Hybrid Relation Vector Machine: A Highly Robust Respiratory Rate Prediction Model Using Photoplethysmography Signals [J]. Diagnostics, 2023, 13(5): 1-14. Link[13] Zhencheng Chen, Huishan Qin, Wenjun Ge, Shiyong Li*, Yongbo Liang*. Research on a Non-Invasive Hemoglobin Measurement System Based on Four-Wavelength Photoplethysmography [J]. Electronics, 2023, 12(6): 1-12. Link[14] Yang Zhang, Jianming Zhu, Yongbo Liang, Hongbo Chen, Shimin Yin and Zhencheng Chen*. Non-invasive blood glucose detection system based on conservation of energy method. Physiological measurement, 2017, 38: 325-342.[15] Yongbo Liang, Ahmed Hussain, Derek Abbott, Carlo Menon, Rabab Ward and Mohamed Elgendi*. Impact of Data Transformation: An ECG Heartbeat Classification Approach. Frontiers in Digital Health, Dec 23, 2020 doi: 10.3389/fdgth.2020.610956 (2020), Link