Classifying smoking urges via machine learning. Dumortier, A., Beckjord, E., Shiffman, S., & Sejdić, E. Computer Methods and Programs in Biomedicine, 137:203-213, Elsevier Ireland Ltd, 12, 2016.
Classifying smoking urges via machine learning [link]Website  abstract   bibtex   
Background and objective Smoking is the largest preventable cause of death and diseases in the developed world, and advances in modern electronics and machine learning can help us deliver real-time intervention to smokers in novel ways. In this paper, we examine different machine learning approaches to use situational features associated with having or not having urges to smoke during a quit attempt in order to accurately classify high-urge states. Methods To test our machine learning approaches, specifically, Bayes, discriminant analysis and decision tree learning methods, we used a dataset collected from over 300 participants who had initiated a quit attempt. The three classification approaches are evaluated observing sensitivity, specificity, accuracy and precision. Results The outcome of the analysis showed that algorithms based on feature selection make it possible to obtain high classification rates with only a few features selected from the entire dataset. The classification tree method outperformed the naive Bayes and discriminant analysis methods, with an accuracy of the classifications up to 86%. These numbers suggest that machine learning may be a suitable approach to deal with smoking cessation matters, and to predict smoking urges, outlining a potential use for mobile health applications. Conclusions In conclusion, machine learning classifiers can help identify smoking situations, and the search for the best features and classifier parameters significantly improves the algorithms’ performance. In addition, this study also supports the usefulness of new technologies in improving the effect of smoking cessation interventions, the management of time and patients by therapists, and thus the optimization of available health care resources. Future studies should focus on providing more adaptive and personalized support to people who really need it, in a minimum amount of time by developing novel expert systems capable of delivering real-time interventions.
@article{
 title = {Classifying smoking urges via machine learning},
 type = {article},
 year = {2016},
 identifiers = {[object Object]},
 keywords = {Feature selection,Machine learning,Smoking cessation,Smoking urges,Supervised learning},
 pages = {203-213},
 volume = {137},
 websites = {/pmc/articles/PMC5289882/?report=abstract,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5289882/},
 month = {12},
 publisher = {Elsevier Ireland Ltd},
 day = {1},
 id = {63de798d-05f0-3b29-8c92-9758a2c070c2},
 created = {2020-09-25T08:37:57.426Z},
 accessed = {2020-09-22},
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 last_modified = {2020-09-25T08:37:57.426Z},
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 abstract = {Background and objective Smoking is the largest preventable cause of death and diseases in the developed world, and advances in modern electronics and machine learning can help us deliver real-time intervention to smokers in novel ways. In this paper, we examine different machine learning approaches to use situational features associated with having or not having urges to smoke during a quit attempt in order to accurately classify high-urge states. Methods To test our machine learning approaches, specifically, Bayes, discriminant analysis and decision tree learning methods, we used a dataset collected from over 300 participants who had initiated a quit attempt. The three classification approaches are evaluated observing sensitivity, specificity, accuracy and precision. Results The outcome of the analysis showed that algorithms based on feature selection make it possible to obtain high classification rates with only a few features selected from the entire dataset. The classification tree method outperformed the naive Bayes and discriminant analysis methods, with an accuracy of the classifications up to 86%. These numbers suggest that machine learning may be a suitable approach to deal with smoking cessation matters, and to predict smoking urges, outlining a potential use for mobile health applications. Conclusions In conclusion, machine learning classifiers can help identify smoking situations, and the search for the best features and classifier parameters significantly improves the algorithms’ performance. In addition, this study also supports the usefulness of new technologies in improving the effect of smoking cessation interventions, the management of time and patients by therapists, and thus the optimization of available health care resources. Future studies should focus on providing more adaptive and personalized support to people who really need it, in a minimum amount of time by developing novel expert systems capable of delivering real-time interventions.},
 bibtype = {article},
 author = {Dumortier, Antoine and Beckjord, Ellen and Shiffman, Saul and Sejdić, Ervin},
 journal = {Computer Methods and Programs in Biomedicine}
}

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