Abstract
As the manual detection of building footprint is inefficient and labor-intensive, this study proposed a method of building footprint extraction and change detection based on deep convolutional neural networks. The study modified the existing U-Net model to develop the “PRU-Net” model. PRU-Net incorporates pyramid scene parsing (PSP) to allow multiscale scene parsing, a residual block (RB) in ResNet for feature extraction, and focal loss to address sample imbalance. Within the proposed method, building footprint extraction is conducted as follows: 1) unmanned aerial vehicle images are cropped, denoised, and semantically marked, and datasets are created (including training/validation and prediction datasets); 2) the training/validation and prediction datasets are input into the full convolutional neural network PRU-Net for model training/validation and prediction. Compared with the U-Net, PSP+U-Net (PU-Net), and U-Net++ models, PRU-Net offers improved footprint extraction of buildings with a range of sizes and shapes. The large-scale experimental results demonstrated the effectiveness of the PSP module for multiscale scene analysis and the RB module for feature extraction. After demonstrating the improvements in building extraction offered by PRU-Net, the building footprint results were further processed to generate a building change map.
Highlights
C HINA has undergone rapid urban expansion due to accelerated economic development over the past two decades
This study integrated deep convolutional neural networks (DCNNs) and high-resolution unmanned aerial vehicle (UAV) image data to fully tap the value of UAV images and to extract building footprint and detect the changes in the images generated at different times using various shooting angles and definition
This study proposed a building footprint extraction and change detection method
Summary
C HINA has undergone rapid urban expansion due to accelerated economic development over the past two decades. This urban expansion has resulted in a continuous increase in building footprints [1], [2]. The rapid changes in building footprints have caused many problems, including the deterioration of effective land use, the reduction of cultivated land, environmental pollution, and ecological destruction [3]. Accurate building footprint extraction and detection of the Manuscript received September 28, 2020; revised November 8, 2020 and December 15, 2020; accepted January 13, 2021. Date of publication January 18, 2021; date of current version February 9, 2021.
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