Sapdo Utomo, A. John, Ayush Pratap, Zhi-Sheng Jiang, P. Karthikeyan, Pao-Ann Hsiung
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引用次数: 3
摘要
根据可持续发展目标,机器学习(ML)和人工智能(AI)的指数级扩展为构建更有效的工具和解决方案并产生积极的社会影响提供了绝佳机会。根据世卫组织的报告,全球颗粒物污染每年导致800多万人死亡。这就是我们进行这项研究的根本原因。本研究提出使用深度学习来估计空气质量。该模型在RMSE、r²和准确率方面均优于现有模型,RMSE、r²和准确率分别为30.10、0.83和76.92%。为了解释模型的输出,我们实现了LIME。根据LIME的解释,所提出的模型的输出是可信的。因为它揭示了天空,而不是其他地方,如建筑物,是对模型决策最具影响力的超像素的来源。我们希望通过这一发现,我们可以为“AI for social good”的主题做出贡献,特别是在环境和人类福利领域。
AIX Implementation in Image-Based PM2.5 Estimation: Toward an AI Model for Better Understanding
In accordance with the Sustainable Development Goals, the exponential expansion of machine learning (ML) and artificial intelligence (AI) presents an excellent chance to build more effective tools and solutions and generate positive social impact. According to the WHO report, global PM pollution causes more than 8 million deaths annually. This is the fundamental reason we are performing this research. This research proposes estimating air quality using deep learning. The proposed model can surpass the state-of-the-art model in terms of RMSE, R-squared, and accuracy, which have respective values of 30.10, 0.83, and 76.92%. In order to explain the model’s output, LIME has been implemented. According to LIME’s explanation, the proposed model’s output is trustworthy. Because it reveals that the sky, and not other places such as buildings, was the source of the most impactful superpixels on the model’s decision. We hope that with this discovery, we can contribute to the theme of “AI for social good,” notably in the domains of the environment and human welfare.
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