pyPPG: a Python toolbox for comprehensive photoplethysmography signal analysis

Goda, Márton Á; Charlton, Peter H; Behar, Joachim A

doi:10.1088/1361-6579/ad33a2

Cited by 3 publications

References 77 publications

(108 reference statements)

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MSPTDfast: An Efficient Photoplethysmography Beat Detection Algorithm

Charlton,

Mant,

Kyriacou

2024

Preprint

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Beat detection is a key step in the analysis of photoplethysmogram (PPG) signals. The ‘MSPTD’ algorithm was recently identified as one of the most accurate beat detection algorithms, but its current open-source implementation is substantially more computationally expensive than other leading algorithms such as ‘qppgfast’. The aim of this work was to develop a more efficient, open-source implementation of the ‘MSPTD’ algorithm. Five potential improvements were identified to increase efficiency. Each potential improvement was evaluated in turn, and an optimal algorithm configuration named ‘MSPTDfast’ was developed which incorporated all of the improvements found to reduce algorithm execution time whilst not substantially reducing the accuracy of beat detection. Performance was assessed using data collected from young adults during a lunchbreak in the PPG-DaLiA dataset. The data consisted of wrist PPG signals acquired using an Empatica E4 device, alongside simultaneous ECG signals from which reference heartbeat timings were obtained. ‘MSPTDfast’ was found to be substantially more efficient than ‘MSPTD’ (a reduction in execution time of 64.4%), with minimal difference in beat detection accuracy (F1-score 87.8% vs. 87.7%). In addition, the performance of ‘MSPTDfast’ was much closer to that of the state-of-the-art ‘qppgfast’ algorithm than the ‘MSPTD’ algorithm, with a comparable F1-score (87.4% vs. 87.7%), and an execution time which was only 30.0% longer than that of ‘qppgfast’ (vs. 257.4% longer for ‘MSPTD’). In conclusion, ‘MSPTD-fast’ is an efficient and accurate open-source PPG beat detection algorithm with a substantially faster execution time than ‘MSPTD’. It is available under the permissive MIT licence.

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MSPTDfast: An Efficient Photoplethysmography Beat Detection Algorithm

Charlton,

Mant,

Kyriacou

2024

Preprint

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The MSPTDfast photoplethysmography beat detection algorithm: Design, benchmarking, and open-source distribution

Charlton,

Javier Argüello-Prada,

Mant

et al. 2024

Preprint

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ObjectivePhotoplethysmography is widely used for physiological monitoring, whether in clinical devices such as pulse oximeters, or consumer devices such as smart-watches. A key step in the analysis of photoplethysmogram (PPG) signals is detecting heartbeats. The MSPTD algorithm has been found to be one of the most accurate PPG beat detection algorithms, but is less computationally efficient than other algorithms. Therefore, the aim of this study was to develop a more efficient, open-source implementation of the MSPTD algorithm for PPG beat detection, named MSPTDfast (v.2).ApproachFive potential improvements to MSPTD were identified and evaluated on four datasets. MSPTDfast (v.2) was designed by incorporating each improvement which on its own reduced execution time whilst maintaining a high F1-score. After internal validation, MSPTDfast (v.2) was benchmarked against state-of-the-art beat detection algorithms on four additional datasets.Main resultsMSPTDfast (v.2) incorporated two key improvements: pre-processing PPG signals to reduce the sampling frequency to 20 Hz; and only calculating scalogram scales corresponding to heart rates >30 bpm. During internal validation MSPTDfast (v.2) was found to have an execution time of between approximately one-third and one-twentieth of MSPTD, and a comparable F1-score. During benchmarking MSPTDfast (v.2) was found to have the highest F1-score alongside MSPTD, and amongst one of the lowest execution times with only MSPTDfast (v.1), qppgfast and MMPD (v.2) achieving shorter execution times.SignificanceMSPTDfast (v.2) is an accurate and efficient PPG beat detection algorithm, available in an open-source Matlab toolbox.

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