Progressive Learning With Cross-Window Consistency for Semi-Supervised Semantic Segmentation

Bo Dang;Yansheng Li;Yongjun Zhang;Jiayi Ma
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Abstract

Semi-supervised semantic segmentation focuses on the exploration of a small amount of labeled data and a large amount of unlabeled data, which is more in line with the demands of real-world image understanding applications. However, it is still hindered by the inability to fully and effectively leverage unlabeled images. In this paper, we reveal that cross-window consistency (CWC) is helpful in comprehensively extracting auxiliary supervision from unlabeled data. Additionally, we propose a novel CWC-driven progressive learning framework to optimize the deep network by mining weak-to-strong constraints from massive unlabeled data. More specifically, this paper presents a biased cross-window consistency (BCC) loss with an importance factor, which helps the deep network explicitly constrain confidence maps from overlapping regions in different windows to maintain semantic consistency with larger contexts. In addition, we propose a dynamic pseudo-label memory bank (DPM) to provide high-consistency and high-reliability pseudo-labels to further optimize the network. Extensive experiments on three representative datasets of urban views, medical scenarios, and satellite scenes with consistent performance gain demonstrate the superiority of our framework. Our code is released at https://jack-bo1220.github.io/project/CWC.html .
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利用跨窗口一致性渐进学习实现半监督语义分割
半监督语义分割侧重于探索少量标记数据和大量未标记数据,这更符合现实世界图像理解应用的需求。然而,由于无法充分有效地利用未标记图像,它仍然受到阻碍。本文揭示了跨窗口一致性(CWC)有助于从无标记数据中全面提取辅助监督。此外,我们还提出了一种新颖的 CWC 驱动的渐进式学习框架,通过从海量无标记数据中挖掘弱到强的约束条件来优化深度网络。更具体地说,本文提出了一种带有重要性因子的有偏跨窗口一致性(BCC)损失,它可以帮助深度网络明确约束来自不同窗口重叠区域的置信度图,以保持与更大上下文的语义一致性。此外,我们还提出了动态伪标签记忆库(DPM),以提供高一致性和高可靠性的伪标签,从而进一步优化网络。我们在城市景观、医疗场景和卫星场景三个代表性数据集上进行了广泛的实验,并取得了一致的性能增益,这证明了我们框架的优越性。我们的代码发布于 https://jack-bo1220.github.io/project/CWC.html。
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