Huaijin Pi scite author profile

This paper introduces a novel contour-based approach named deep snake for real-time instance segmentation. Unlike some recent methods that directly regress the coordinates of the object boundary points from an image, deep snake uses a neural network to iteratively deform an initial contour to match the object boundary, which implements the classic idea of snake algorithms with a learning-based approach. For structured feature learning on the contour, we propose to use circular convolution in deep snake, which better exploits the cycle-graph structure of a contour compared against generic graph convolution. Based on deep snake, we develop a two-stage pipeline for instance segmentation: initial contour proposal and contour deformation, which can handle errors in object localization. Experiments show that the proposed approach achieves competitive performances on the Cityscapes, KINS, SBD and COCO datasets while being efficient for real-time applications with a speed of 32.3 fps for 512×512 images on a 1080Ti GPU. The code is available at https://github.com/zju3dv/snake/.

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E-NeRV: Expedite Neural Video Representation with Disentangled Spatial-Temporal Context

Li¹,

Wang²,

Pi³

et al. 2022

Preprint

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Recently, the image-wise implicit neural representation of videos, NeRV, has gained popularity for its promising results and swift speed compared to regular pixel-wise implicit representations. However, the redundant parameters within the network structure can cause a large model size when scaling up for desirable performance. The key reason of this phenomenon is the coupled formulation of NeRV, which outputs the spatial and temporal information of video frames directly from the frame index input. In this paper, we propose E-NeRV, which dramatically expedites NeRV by decomposing the image-wise implicit neural representation into separate spatial and temporal context. Under the guidance of this new formulation, our model greatly reduces the redundant model parameters, while retaining the representation ability. We experimentally find that our method can improve the performance to a large extent with fewer parameters, resulting in a more than 8× faster speed on convergence. Code is available at https://github.com/kyleleey/E-NeRV.

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A Joint Modeling of Vision-Language-Action for Target-oriented Grasping in Clutter

Zhao

Zhou

et al. 2023

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Huaijin Pi

Deep Snake for Real-Time Instance Segmentation

Deep Snake for Real-Time Instance Segmentation

E-NeRV: Expedite Neural Video Representation with Disentangled Spatial-Temporal Context

A Joint Modeling of Vision-Language-Action for Target-oriented Grasping in Clutter

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