Cost-sensitive Boosting Pruning Trees for depression detection on Twitter
Abstract
Depression is one of the most common mental health disorders, and a large number of depressed people commit suicide each year. Potential depression sufferers usually do not consult psychological doctors because they feel ashamed or are unaware of any depression, which may result in severe delay of diagnosis and treatment. In the meantime, evidence shows that social media data provides valuable clues about physical and mental health conditions. In this paper, we argue that it is feasible to identify depression at an early stage by mining online social behaviours. Our approach, which is innovative to the practice of depression detection, does not rely on the extraction of numerous or complicated features to achieve accurate depression detection. Instead, we propose a novel classifier, namely, Cost-sensitive Boosting Pruning Trees (CBPT), which demonstrates a strong classification ability on two publicly accessible Twitter depression detection datasets. To comprehensively evaluate the classification capability of the CBPT, we use additional three datasets from the UCI machine learning repository and the CBPT obtains appealing classification results against several state of the arts boosting algorithms. Finally, we comprehensively explore the influence factors of model prediction, and the results manifest that our proposed framework is promising for identifying Twitter users with depression.
Cite
@article{arxiv.1906.00398,
title = {Cost-sensitive Boosting Pruning Trees for depression detection on Twitter},
author = {Lei Tong and Zhihua Liu and Zheheng Jiang and Feixiang Zhou and Long Chen and Jialin Lyu and Xiangrong Zhang and Qianni Zhang and Abdul Sadka Senior and Yinhai Wang and Ling Li and Huiyu Zhou},
journal= {arXiv preprint arXiv:1906.00398},
year = {2022}
}
Comments
15 pages, 7 figures, Accepted by IEEE transactions on Affective Computing