DRE-Net: A Dynamic Radius-Encoding Neural Network with an Incremental Training Strategy for Interactive Segmentation of Remote Sensing Images

Yang, Liangzhe; Zi, Wenjie; Chen, Hao; Peng, Shuang

doi:10.3390/rs15030801

Cited by 5 publications

(2 citation statements)

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“…It performed region segmentation in the click area and refined the segmented area, significantly reducing the computation time and number of model parameters. To further enhance the performance of the segmentation model, dynamic encoding and phased incremental learning strategies were proposed [49]. Interactive building extraction techniques can make full use of user knowledge to guide the extraction process and refine the extraction accuracy.…”

Section: Introductionmentioning

confidence: 99%

“…In the later stage, the focus of network training should be shifted to finetuning the mask output by the network according to the correction information provided by each interaction, which can also weaken the impact of clicks to prevent convergence (CG) deterioration caused by misclassification or blurring and improve the convergence speed. Some methods, such as DRE-Net [49], employ an incremental learning training strategy to enhance the low rate of convergence (RoC), but this increases the training cost. Furthermore, the interaction features obtained from fixed-radius clicks overlook the fine-tuning effect of correction information and lead to confusion in the building extraction task for high-resolution remote sensing images.…”

Section: Introductionmentioning

confidence: 99%

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ARE-Net: An Improved Interactive Model for Accurate Building Extraction in High-Resolution Remote Sensing Imagery

Weng,

Wang,

Lin

et al. 2023

Remote Sensing

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Accurate building extraction for high-resolution remote sensing images is critical for topographic mapping, urban planning, and many other applications. Its main task is to label each pixel point as a building or non-building. Although deep-learning-based algorithms have significantly enhanced the accuracy of building extraction, fully automated methods for building extraction are limited by the requirement for a large number of annotated samples, resulting in a limited generalization ability, easy misclassification in complex remote sensing images, and higher costs due to the need for a large number of annotated samples. To address these challenges, this paper proposes an improved interactive building extraction model, ARE-Net, which adopts a deep interactive segmentation approach. In this paper, we present several key contributions. Firstly, an adaptive-radius encoding (ARE) module was designed to optimize the interaction features of clicks based on the varying shapes and distributions of buildings to provide maximum a priori information for building extraction. Secondly, a two-stage training strategy was proposed to enhance the convergence speed and efficiency of the segmentation process. Finally, some comprehensive experiments using two models of different sizes (HRNet18s+OCR and HRNet32+OCR) were conducted on the Inria and WHU building datasets. The results showed significant improvements over the current state-of-the-art method in terms of NoC90. The proposed method achieved performance enhancements of 7.98% and 13.03% with HRNet18s+OCR and 7.34% and 15.49% with HRNet32+OCR on the WHU and Inria datasets, respectively. Furthermore, the experiments demonstrated that the proposed ARE-Net method significantly reduced the annotation costs while improving the convergence speed and generalization performance.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%