An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning

An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning

Abstract Drug abuse continues to accelerate towards becoming the most severe public health problem in the United States. The ability to detect drug-abuse risk behavior at a population scale, such as among the population of Twitter users, can help us to monitor the trend of drug-abuse incidents. Unfo...

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Main Authors: Han Hu, NhatHai Phan, Soon A. Chun, James Geller, Huy Vo, Xinyue Ye, Ruoming Jin, Kele Ding, Deric Kenne, Dejing Dou
Format: Article
Language:English
Published: SpringerOpen 2019-11-01
Series:Computational Social Networks
Subjects:
Deep learning
Self-taught learning
Drug abuse
Twitter
Online Access:http://link.springer.com/article/10.1186/s40649-019-0071-4
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spelling doaj-8cff62e4d4634dde9c278a92126d106d2021-04-02T13:19:59ZengSpringerOpenComputational Social Networks2197-43142019-11-016111910.1186/s40649-019-0071-4An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learningHan Hu0NhatHai Phan1Soon A. Chun2James Geller3Huy Vo4Xinyue Ye5Ruoming Jin6Kele Ding7Deric Kenne8Dejing Dou9New Jersey Institute of TechnologyNew Jersey Institute of TechnologyCity University of New YorkNew Jersey Institute of TechnologyThe City College of New YorkNew Jersey Institute of TechnologyKent State UniversityKent State UniversityKent State UniversityUniversity of OregonAbstract Drug abuse continues to accelerate towards becoming the most severe public health problem in the United States. The ability to detect drug-abuse risk behavior at a population scale, such as among the population of Twitter users, can help us to monitor the trend of drug-abuse incidents. Unfortunately, traditional methods do not effectively detect drug-abuse risk behavior, given tweets. This is because: (1) tweets usually are noisy and sparse and (2) the availability of labeled data is limited. To address these challenging problems, we propose a deep self-taught learning system to detect and monitor drug-abuse risk behaviors in the Twitter sphere, by leveraging a large amount of unlabeled data. Our models automatically augment annotated data: (i) to improve the classification performance and (ii) to capture the evolving picture of drug abuse on online social media. Our extensive experiments have been conducted on three million drug-abuse-related tweets with geo-location information. Results show that our approach is highly effective in detecting drug-abuse risk behaviors.http://link.springer.com/article/10.1186/s40649-019-0071-4Deep learningSelf-taught learningDrug abuseTwitter
collection DOAJ
language English
format Article
sources DOAJ
author Han Hu
NhatHai Phan
Soon A. Chun
James Geller
Huy Vo
Xinyue Ye
Ruoming Jin
Kele Ding
Deric Kenne
Dejing Dou
spellingShingle Han Hu
NhatHai Phan
Soon A. Chun
James Geller
Huy Vo
Xinyue Ye
Ruoming Jin
Kele Ding
Deric Kenne
Dejing Dou
An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning
Computational Social Networks
Deep learning
Self-taught learning
Drug abuse
Twitter
author_facet Han Hu
NhatHai Phan
Soon A. Chun
James Geller
Huy Vo
Xinyue Ye
Ruoming Jin
Kele Ding
Deric Kenne
Dejing Dou
author_sort Han Hu
title An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning
title_short An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning
title_full An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning
title_fullStr An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning
title_full_unstemmed An insight analysis and detection of drug-abuse risk behavior on Twitter with self-taught deep learning
title_sort insight analysis and detection of drug-abuse risk behavior on twitter with self-taught deep learning
publisher SpringerOpen
series Computational Social Networks
issn 2197-4314
publishDate 2019-11-01
description Abstract Drug abuse continues to accelerate towards becoming the most severe public health problem in the United States. The ability to detect drug-abuse risk behavior at a population scale, such as among the population of Twitter users, can help us to monitor the trend of drug-abuse incidents. Unfortunately, traditional methods do not effectively detect drug-abuse risk behavior, given tweets. This is because: (1) tweets usually are noisy and sparse and (2) the availability of labeled data is limited. To address these challenging problems, we propose a deep self-taught learning system to detect and monitor drug-abuse risk behaviors in the Twitter sphere, by leveraging a large amount of unlabeled data. Our models automatically augment annotated data: (i) to improve the classification performance and (ii) to capture the evolving picture of drug abuse on online social media. Our extensive experiments have been conducted on three million drug-abuse-related tweets with geo-location information. Results show that our approach is highly effective in detecting drug-abuse risk behaviors.
topic Deep learning
Self-taught learning
Drug abuse
Twitter
url http://link.springer.com/article/10.1186/s40649-019-0071-4
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