Crowd Counting via Adversarial Cross-Scale Consistency Pursuit

Zan Shen, Yi Xu, Bingbing Ni, Minsi Wang, Jianguo Hu, Xiaokang Yang
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引用次数: 305

Abstract

Crowd counting or density estimation is a challenging task in computer vision due to large scale variations, perspective distortions and serious occlusions, etc. Existing methods generally suffer from two issues: 1) the model averaging effects in multi-scale CNNs induced by the widely adopted $$ regression loss; and 2) inconsistent estimation across different scaled inputs. To explicitly address these issues, we propose a novel crowd counting (density estimation) framework called Adversarial Cross-Scale Consistency Pursuit (ACSCP). On one hand, a U-net structured generation network is designed to generate density map from input patch, and an adversarial loss is directly employed to shrink the solution onto a realistic subspace, thus attenuating the blurry effects of density map estimation. On the other hand, we design a novel scale-consistency regularizer which enforces that the sum up of the crowd counts from local patches (i.e., small scale) is coherent with the overall count of their region union (i.e., large scale). The above losses are integrated via a joint training scheme, so as to help boost density estimation performance by further exploring the collaboration between both objectives. Extensive experiments on four benchmarks have well demonstrated the effectiveness of the proposed innovations as well as the superior performance over prior art.
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通过对抗性跨尺度一致性追求的人群计数
人群计数或密度估计在计算机视觉中是一个具有挑战性的任务,因为大规模的变化,视角扭曲和严重的遮挡等。现有方法普遍存在两个问题:1)广泛采用的$$回归损失引起的多尺度cnn模型平均效应;2)不同尺度输入的不一致估计。为了明确地解决这些问题,我们提出了一个新的人群计数(密度估计)框架,称为对抗性跨尺度一致性追求(ACSCP)。一方面,设计U-net结构化生成网络,从输入patch生成密度图,并直接使用对抗损失将解缩小到现实子空间,从而减弱密度图估计的模糊效应;另一方面,我们设计了一种新的尺度一致性正则化器,该正则化器强制局部斑块(即小尺度)的人群计数总和与其区域联合(即大尺度)的总体计数一致。通过联合训练方案整合上述损失,从而进一步探索两个目标之间的协作,从而提高密度估计的性能。在四个基准上的广泛实验已经很好地证明了所提出的创新的有效性以及优于现有技术的性能。
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