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Main Authors: Sarkar, Pritisha, Jala, Kushalava reddy, Saha, Mousumi
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.06222
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author Sarkar, Pritisha
Jala, Kushalava reddy
Saha, Mousumi
author_facet Sarkar, Pritisha
Jala, Kushalava reddy
Saha, Mousumi
contents Acknowledging the effects of outdoor air pollution, the literature inadequately addresses indoor air pollution's impacts. Despite daily health risks, existing research primarily focused on monitoring, lacking accuracy in pinpointing indoor pollution sources. In our research work, we thoroughly investigated the influence of indoor activities on pollution levels. A survey of 143 participants revealed limited awareness of indoor air pollution. Leveraging 65 days of diverse data encompassing activities like incense stick usage, indoor smoking, inadequately ventilated cooking, excessive AC usage, and accidental paper burning, we developed a comprehensive monitoring system. We identify pollutant sources and effects with high precision through clustering analysis and interpretability models (LIME and SHAP). Our method integrates Decision Trees, Random Forest, Naive Bayes, and SVM models, excelling at 99.8% accuracy with Decision Trees. Continuous 24-hour data allows personalized assessments for targeted pollution reduction strategies, achieving 91% accuracy in predicting activities and pollution exposure.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06222
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Can Explainable AI Assess Personalized Health Risks from Indoor Air Pollution?
Sarkar, Pritisha
Jala, Kushalava reddy
Saha, Mousumi
Machine Learning
Acknowledging the effects of outdoor air pollution, the literature inadequately addresses indoor air pollution's impacts. Despite daily health risks, existing research primarily focused on monitoring, lacking accuracy in pinpointing indoor pollution sources. In our research work, we thoroughly investigated the influence of indoor activities on pollution levels. A survey of 143 participants revealed limited awareness of indoor air pollution. Leveraging 65 days of diverse data encompassing activities like incense stick usage, indoor smoking, inadequately ventilated cooking, excessive AC usage, and accidental paper burning, we developed a comprehensive monitoring system. We identify pollutant sources and effects with high precision through clustering analysis and interpretability models (LIME and SHAP). Our method integrates Decision Trees, Random Forest, Naive Bayes, and SVM models, excelling at 99.8% accuracy with Decision Trees. Continuous 24-hour data allows personalized assessments for targeted pollution reduction strategies, achieving 91% accuracy in predicting activities and pollution exposure.
title Can Explainable AI Assess Personalized Health Risks from Indoor Air Pollution?
topic Machine Learning
url https://arxiv.org/abs/2501.06222