JpGU-AGU Joint Meeting 2020

講演情報

[E] ポスター発表

セッション記号 H (地球人間圏科学) » H-TT 計測技術・研究手法

[H-TT14] 地理情報システムと地図・空間表現(英語)

コンビーナ:小口 高(東京大学空間情報科学研究センター)、若林 芳樹(首都大学東京大学院都市環境科学研究科)、Yuei-An Liou(National Central University)、Ronald C. Estoque(National Institute for Environmental Studies, Japan)

[HTT14-P02] Landslide Detection from Remote Sensing Imagery Based on SPP-PCANet

*魏 伊梅1小口 高2 (1.東京大学、2.東京大学空間情報科学研究センター)

キーワード:地すべり検出、画像特徴抽出、SPP-PCANet、機械学習

Landslides are complex geological phenomena that can cause serious damage to the natural and social environments and may result in a significant loss of lives and properties. Therefore, it is crucial to conduct a timely post-disaster investigation. Landslide detection is an important step of landslide studies such as mapping, inventory preparation, and specific analyses for the coordination of practical actions including rapid disaster responses. Remote sensing images have been widely used in disaster research with the aid of image feature analysis based on computer vision. Traditional feature extraction methods depend on visual interpretation of feature characteristics such as color, gradient, and corners. However, such methods usually require a large amount of prior knowledge and tedious work. They also tend to be subjective and are only applicable to some specific environments, meaning that generalization ability is low. In recent years, the increasing maturity of machine learning, especially deep learning, enables features to be automatically detected from images, providing more robust analysis and interpretation of remote sensing images. This study explores a landslide detection method that uses a simple and effective image feature descriptor based on a highly simplified network designated as Spatial Pyramid Pooling Principal Component Analysis Network (SPP-PCANet) combined with the SVM classifier. We analyzed landslides due to the 2018 Hokkaido Eastern Iburi earthquake, using vertical aerial photographs and orthophotographs provided by the Geospatial Information Authority of Japan (GSI) for model training and hyperparameters optimization. Then we performed landslide detection using Google Earth imagery. Experimental results show that the proposed landslide detection method has promising performance and may contribute to future rapid responses to landslide hazards.