联合优化空间嵌入和聚类带宽的实例分割

D. Neven, Bert De Brabandere, M. Proesmans, L. Gool
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引用次数: 215

摘要

当前最先进的实例分割方法不适合自动驾驶等实时应用,因为这些应用需要快速的执行时间和高精度。虽然目前主流的基于提议的方法具有很高的精度,但它们速度慢,并且生成的掩码固定且分辨率低。相比之下,无提议的方法可以在高分辨率下生成掩模,并且通常更快,但无法达到与基于提议的方法相同的精度。在这项工作中,我们提出了一种新的聚类损失函数用于无提议的实例分割。损失函数将属于同一实例的像素的空间嵌入拉到一起,并共同学习特定于实例的聚类带宽,最大化所得到的实例掩码的交集-过并。当与快速架构相结合时,网络可以在保持高精度的同时实时执行实例分割。我们在具有挑战性的城市景观基准上评估了我们的方法,并在200万像素的图像上以超过10 fps的速度获得了最佳结果(比Mask R-CNN提高了5%)。
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Instance Segmentation by Jointly Optimizing Spatial Embeddings and Clustering Bandwidth
Current state-of-the-art instance segmentation methods are not suited for real-time applications like autonomous driving, which require fast execution times at high accuracy. Although the currently dominant proposal-based methods have high accuracy, they are slow and generate masks at a fixed and low resolution. Proposal-free methods, by contrast, can generate masks at high resolution and are often faster, but fail to reach the same accuracy as the proposal-based methods. In this work we propose a new clustering loss function for proposal-free instance segmentation. The loss function pulls the spatial embeddings of pixels belonging to the same instance together and jointly learns an instance-specific clustering bandwidth, maximizing the intersection-over-union of the resulting instance mask. When combined with a fast architecture, the network can perform instance segmentation in real-time while maintaining a high accuracy. We evaluate our method on the challenging Cityscapes benchmark and achieve top results (5% improvement over Mask R-CNN) at more than 10 fps on 2MP images.
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