School of Public and International Affairs, Virginia Tech, 140 Otey Street, Blacksburg, Virginia 24061, United States.
Environ Sci Technol. 2021 Feb 16;55(4):2695-2704. doi: 10.1021/acs.est.0c05572. Epub 2021 Feb 4.
Land-use regression (LUR) models are frequently applied to estimate spatial patterns of air pollution. Traditional LUR often relies on fixed-site measurements and GIS-derived variables with limited spatial resolution. We present an approach that leverages Google Street View (GSV) imagery to predict street-level particulate air pollution (i.e., black carbon [BC] and particle number [PN] concentrations). We developed empirical models based on mobile monitoring data and features extracted from ∼52 500 GSV images using a deep learning model. We tested theory- and data-driven feature selection methods as well as models using images within varying buffer sizes (50-2000 m). Compared to LUR models with traditional variables, our models achieved similar model performance using the street-level predictors while also identifying additional potential hotspots. Adjusted (10-fold CV ) with integrated feature selection was 0.57-0.64 (0.50-0.57) and 0.65-0.73 (0.61-0.66) for BC and PN models, respectively. Models using only features near the measurement locations (i.e., GSV images within 250 m) explained ∼50% of air pollution variability, indicating PN and BC are strongly affected by the street-level built environment. Our results suggest that GSV imagery, processed with computer vision techniques, is a promising data source to develop LUR models with high spatial resolution and consistent predictor variables across administrative boundaries.
土地利用回归(LUR)模型常用于估计空气污染的空间分布模式。传统的 LUR 通常依赖于固定站点测量和 GIS 衍生变量,空间分辨率有限。我们提出了一种利用谷歌街景(GSV)图像来预测街道水平颗粒物空气污染(即黑碳[BC]和颗粒数[PN]浓度)的方法。我们基于移动监测数据和使用深度学习模型从约 52500 张 GSV 图像中提取的特征开发了经验模型。我们测试了理论和数据驱动的特征选择方法以及使用不同缓冲区大小(50-2000 米)的图像的模型。与使用传统变量的 LUR 模型相比,我们的模型使用街道水平预测因子实现了类似的模型性能,同时还确定了其他潜在的热点。经过集成特征选择的调整(10 倍交叉验证),BC 和 PN 模型的分别为 0.57-0.64(0.50-0.57)和 0.65-0.73(0.61-0.66)。仅使用测量位置附近特征(即,250 米内的 GSV 图像)的模型解释了约 50%的空气污染变化,表明 PN 和 BC 强烈受到街道水平建筑环境的影响。我们的结果表明,经过计算机视觉技术处理的 GSV 图像是一种很有前途的数据源,可以开发具有高空间分辨率和一致预测因子的 LUR 模型,跨越行政边界。
