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Sensor-Based Estimation of Dim Light Melatonin Onset Using Features of Two Time Scales

Authors:

Andrew W. Mchill,

Elizabeth B. Klerman,

Akane SanoAuthors Info & Claims

ACM Transactions on Computing for Healthcare , Volume 2, Issue 3

Article No.: 20, Pages 1 - 15

https://doi.org/10.1145/3447516

Published: 21 July 2021 Publication History

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Abstract

Circadian rhythms influence multiple essential biological activities, including sleep, performance, and mood. The dim light melatonin onset (DLMO) is the gold standard for measuring human circadian phase (i.e., timing). The collection of DLMO is expensive and time consuming since multiple saliva or blood samples are required overnight in special conditions, and the samples must then be assayed for melatonin. Recently, several computational approaches have been designed for estimating DLMO. These methods collect daily sampled data (e.g., sleep onset/offset times) or frequently sampled data (e.g., light exposure/skin temperature/physical activity collected every minute) to train learning models for estimating DLMO. One limitation of these studies is that they only leverage one time-scale data. We propose a two-step framework for estimating DLMO using data from both time scales. The first step summarizes data from before the current day, whereas the second step combines this summary with frequently sampled data of the current day. We evaluate three moving average models that input sleep timing data as the first step and use recurrent neural network models as the second step. The results using data from 207 undergraduates show that our two-step model with two time-scale features has statistically significantly lower root-mean-square errors than models that use either daily sampled data or frequently sampled data.

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Cited By

Montanari AWang LBirenboim AChaix B(2024)Urban environment influences on stress, autonomic reactivity and circadian rhythm: protocol for an ambulatory study of mental health and sleepFrontiers in Public Health10.3389/fpubh.2024.117510912Online publication date: 5-Feb-2024
https://doi.org/10.3389/fpubh.2024.1175109
Brown LSt. Hilaire MMcHill APhillips ABarger LSano ACzeisler CDoyle FKlerman E(2021)A classification approach to estimating human circadian phase under circadian alignment from actigraphy and photometry dataJournal of Pineal Research10.1111/jpi.1274571:1Online publication date: 20-Jun-2021
https://doi.org/10.1111/jpi.12745

Index Terms

Sensor-Based Estimation of Dim Light Melatonin Onset Using Features of Two Time Scales

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cover image ACM Transactions on Computing for Healthcare

ACM Transactions on Computing for Healthcare Volume 2, Issue 3

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July 2021

226 pages

EISSN:2637-8051

DOI:10.1145/3476113

Editors:
Insup Lee
University of Pennsylvania, USA
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John A. Stankovic
University of Virginia, USA

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Copyright © 2021 ACM.

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Publication History

Published: 21 July 2021

Accepted: 01 January 2021

Revised: 01 October 2020

Received: 01 January 2020

Published in HEALTH Volume 2, Issue 3

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Cited By

Montanari AWang LBirenboim AChaix B(2024)Urban environment influences on stress, autonomic reactivity and circadian rhythm: protocol for an ambulatory study of mental health and sleepFrontiers in Public Health10.3389/fpubh.2024.117510912Online publication date: 5-Feb-2024
https://doi.org/10.3389/fpubh.2024.1175109
Brown LSt. Hilaire MMcHill APhillips ABarger LSano ACzeisler CDoyle FKlerman E(2021)A classification approach to estimating human circadian phase under circadian alignment from actigraphy and photometry dataJournal of Pineal Research10.1111/jpi.1274571:1Online publication date: 20-Jun-2021
https://doi.org/10.1111/jpi.12745

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