Multitask AET with Orthogonal Tangent Regularity for Dark Object Detection

Ziteng Cui, Guo-Jun Qi, Lin Gu, Shaodi You, Zenghui Zhang, T. Harada
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引用次数: 42

Abstract

Dark environment becomes a challenge for computer vision algorithms owing to insufficient photons and undesirable noise. To enhance object detection in a dark environment, we propose a novel multitask auto encoding transformation (MAET) model which is able to explore the intrinsic pattern behind illumination translation. In a self-supervision manner, the MAET learns the intrinsic visual structure by encoding and decoding the realistic illumination-degrading transformation considering the physical noise model and image signal processing (ISP). Based on this representation, we achieve the object detection task by decoding the bounding box coordinates and classes. To avoid the over-entanglement of two tasks, our MAET disentangles the object and degrading features by imposing an orthogonal tangent regularity. This forms a parametric manifold along which multitask predictions can be geometrically formulated by maximizing the orthogonality between the tangents along the outputs of respective tasks. Our framework can be implemented based on the mainstream object detection architecture and directly trained end-to-end using normal target detection datasets, such as VOC and COCO. We have achieved the state-of-the-art performance using synthetic and real-world datasets. Codes will be released at https://github.com/cuiziteng/MAET.
基于正交正切规则的多任务AET暗目标检测
黑暗环境由于光子不足和噪声的影响,对计算机视觉算法提出了挑战。为了增强在黑暗环境下的目标检测,我们提出了一种新的多任务自动编码变换(MAET)模型,该模型能够探索照明转换背后的内在模式。MAET以一种自我监督的方式,考虑物理噪声模型和图像信号处理(ISP),通过对现实光照退化变换进行编码和解码来学习内在视觉结构。基于这种表示,我们通过解码边界框坐标和类来实现目标检测任务。为了避免两个任务的过度纠缠,我们的MAET通过施加正交切线规则来解除对象的纠缠并降低特征。这形成了一个参数流形,沿着这个流形,可以通过最大化沿各自任务输出的切线之间的正交性来几何地表示多任务预测。我们的框架可以基于主流的目标检测架构来实现,并直接使用正常的目标检测数据集(如VOC和COCO)进行端到端训练。我们已经使用合成和真实世界的数据集实现了最先进的性能。代码将在https://github.com/cuiziteng/MAET上发布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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