Amin Ahsan Ali scite author profile

Wearable wireless sensors for health monitoring are enabling the design and delivery of just-in-time interventions (JITI). Critical to the success of JITI is to time its delivery so that the user is available to be engaged. We take a first step in modeling users’ availability by analyzing 2,064 hours of physiological sensor data and 2,717 self-reports collected from 30 participants in a week-long field study. We use delay in responding to a prompt to objectively measure availability. We compute 99 features and identify 30 as most discriminating to train a machine learning model for predicting availability. We find that location, affect, activity type, stress, time, and day of the week, play significant roles in predicting availability. We find that users are least available at work and during driving, and most available when walking outside. Our model finally achieves an accuracy of 74.7% in 10-fold cross-validation and 77.9% with leave-one-subject-out.

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mPuff: Automated detection of cigarette smoking puffs from respiration measurements

Ali

Hossain

Hovsepian

et al. 2012

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Simultaneous feature selection and discretization based on mutual information

Sharmin

Shoyaib

Ali

et al. 2019

Pattern Recognition

103

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Segmentation and recognition of continuous human activity

Ali

Aggarwal

116

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Continuous in-the-field measurement of heart rate: Correlates of drug use, craving, stress, and mood in polydrug users

Kennedy

Epstein

Jobes

et al. 2015

Drug and Alcohol Dependence

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Background Ambulatory physiological monitoring could clarify antecedents and consequences of drug use and could contribute to a sensor-triggered mobile intervention that automatically detects behaviorally risky situations. Our goal was to show that such monitoring is feasible and can produce meaningful data. Methods We assessed heart rate (HR) with AutoSense, a suite of biosensors that wirelessly transmits data to a smartphone, for up to four weeks in 40 polydrug users in opioid-agonist maintenance as they went about their daily lives. Participants also self-reported drug use, mood, and activities on electronic diaries. We compared HR with self-report using multilevel modeling (SAS Proc Mixed). Results Compliance with AutoSense was good; the data yield from the wireless electrocardiographs was 85.7%. HR was higher when participants reported cocaine use than when they reported heroin use (F(2,9) = 250.3, p<.0001) and was also higher as a function of the dose of cocaine reported (F(1,8) = 207.7, p<.0001). HR was higher when participants reported craving heroin (F(1,16)=230.9, p<.0001) or cocaine (F(1,14)=157.2, p<.0001) than when they reported of not craving. HR was lower (p<.05) in randomly prompted entries in which participants reported feeling relaxed, feeling happy, or watching TV, and was higher when they reported feeling stressed, being hassled, or walking. Conclusions High-yield, high-quality heart-rate data can be obtained from drug users in their natural environment as they go about their daily lives, and the resultant data robustly reflect episodes of cocaine and heroin use and other mental and behavioral events of interest.

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Amin Ahsan Ali

Assessing the availability of users to engage in just-in-time intervention in the natural environment

mPuff: Automated detection of cigarette smoking puffs from respiration measurements

Simultaneous feature selection and discretization based on mutual information

Segmentation and recognition of continuous human activity

Continuous in-the-field measurement of heart rate: Correlates of drug use, craving, stress, and mood in polydrug users

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