面向跨数据集人群计数的通用模型

Zhiheng Ma, Xiaopeng Hong, Xing Wei, Yunfeng Qiu, Yihong Gong
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引用次数: 30

摘要

本文提出了一个跨场景和数据集的人群计数通用模型学习的实际问题。我们剖析了这个问题的关键是人群计数器对尺度移动的灾难性敏感性,这在现实世界中很常见,是由不同的场景布局和图像分辨率等因素引起的。因此,很难训练出一个适用于各种场景的通用模型。为了解决这个问题,我们提出将规模对齐作为建立新的人群计数框架的主要模块。我们推导了一个封闭形式的解决方案,通过最小化它们的尺度分布之间的距离来获得最佳的图像重新缩放因子。本文还提出了一种基于有效的Wasserstein距离切片的损失函数神经网络用于尺度分布估计。从所提出的方法中受益,我们已经学习了一个通用模型,该模型通常在几个数据集上工作得很好,甚至可以优于最先进的模型,这些模型对每个数据集进行了特别的微调。实验也证明了我们的模型对未知场景有更好的泛化能力。
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Towards A Universal Model for Cross-Dataset Crowd Counting
This paper proposes to handle the practical problem of learning a universal model for crowd counting across scenes and datasets. We dissect that the crux of this problem is the catastrophic sensitivity of crowd counters to scale shift, which is very common in the real world and caused by factors such as different scene layouts and image resolutions. Therefore it is difficult to train a universal model that can be applied to various scenes. To address this problem, we propose scale alignment as a prime module for establishing a novel crowd counting framework. We derive a closed-form solution to get the optimal image rescaling factors for alignment by minimizing the distances between their scale distributions. A novel neural network together with a loss function based on an efficient sliced Wasserstein distance is also proposed for scale distribution estimation. Benefiting from the proposed method, we have learned a universal model that generally works well on several datasets where can even outperform state-of-the-art models that are particularly fine-tuned for each dataset significantly. Experiments also demonstrate the much better generalizability of our model to unseen scenes.
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