Archive/A Signal Quality Assessment Algorithm for Photoplethysmographic Sensors: Extended Version
A Signal Quality Assessment Algorithm for Photoplethysmographic Sensors: Extended Version
Alfio Basile, Ugo Garozzo, Sonia Andronaco et al.
July 1, 2026
en

Abstract

The growing demand for reliable wearable devices that can continuously monitor vital signs and track health under various conditions imposes challenging constraints on battery life. Wearable devices typically include a Photoplethysmogram (PPG) sensor, which is used for various applications such as monitoring heart rate (HR) and blood oxygenation (SpO2). The efficiency of these applications depends on the quality of the PPG sensor, which acquires raw data through the analog front-end and transmits it externally. This paper presents a digital block that evaluates the quality of the PPG signal directly within the ASIC. The proposed Signal Quality Assessment (SQA) module is derived from post-processing algorithms and translated into a real-time, single-sample evaluation approach, providing significant benefits at both the sensor and system levels. The proposed solution achieves performance comparable to state-of-the-art methods, with a sensitivity of 95.2%, a specificity of 88.1%, and an accuracy of 89.52%, while introducing an extremely low energy overhead equal to 5.38J.

IPC Classification

G06B60H01

Keywords

signalqualityassessmentalgorithmphotoplethysmographicsensorsextendedversionchipsgrowingdemandreliablewearabledevicescontinuouslymonitorvitalsignstrackhealthvariousconditionsimposeschallenging
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