Jindong Jiang scite author profile

Jindong Jiang

5Publications

83Citation Statements Received

119Citation Statements Given

How they've been cited

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119

Affiliations

HESAM Université, South China University of Technology, Arts et Metiers Institute of Technology

Publications

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SPACE: Unsupervised Object-Oriented Scene Representation via Spatial Attention and Decomposition

Lin¹,

Wu²,

Peri³

et al. 2020

Preprint

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The ability to decompose complex multi-object scenes into meaningful abstractions like objects is fundamental to achieve higher-level cognition. Previous approaches for unsupervised object-oriented scene representation learning are either based on spatial-attention or scene-mixture approaches and limited in scalability which is a main obstacle towards modeling real-world scenes. In this paper, we propose a generative latent variable model, called SPACE, that provides a unified probabilistic modeling framework that combines the best of spatial-attention and scene-mixture approaches. SPACE can explicitly provide factorized object representations for foreground objects while also decomposing background segments of complex morphology. Previous models are good at either of these, but not both. SPACE also resolves the scalability problems of previous methods by incorporating parallel spatial-attention and thus is applicable to scenes with a large number of objects without performance degradations. We show through experiments on Atari and 3D-Rooms that SPACE achieves the above properties consistently in comparison to SPAIR, IODINE, and GENESIS. Results of our experiments can be found on our project website: https://sites.google.com/view/space-project-page

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A Self-Adaptive Hybrid Genetic Algorithm for 3D Packing Problem

Jiang

Yin

2012

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Incorporating depth into both CNN and CRF for indoor semantic segmentation

Jiang

Zhang

Huang

et al. 2017

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In this paper, we address the problem of indoor semantic segmentation by incorporating the depth information into the convolutional neural network and conditional random field of a neural network architecture. The architecture combines a RGB-D fully convolutional neural network (DFCN) with a depth-sensitive fully-connected conditional random field (DCRF). In the DFCN module, the depth information is incorporated into the early layers using a fusion structure which is followed by several dilated convolution layers for contextual reasoning. Later in the DCRF module, a depth-sensitive fully-connected conditional random field (DCRF) is proposed and combined with the previous DFCN output to refine the preliminary result. Comparative experiments show that the proposed DFCN-DCRF architecture achieves competitive performance compared with state-of-the-art methods.

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Edge detection in the feature space

Zhang

Jiang

Wang

2011

Image and Vision Computing

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Kinematic parameters estimation during gait based on a multi-view markerless motion capture system

Jiang

Skalli²,

Siadat³

et al. 2022

Gait & Posture

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Jindong Jiang

SPACE: Unsupervised Object-Oriented Scene Representation via Spatial Attention and Decomposition

A Self-Adaptive Hybrid Genetic Algorithm for 3D Packing Problem

Incorporating depth into both CNN and CRF for indoor semantic segmentation

Edge detection in the feature space

Kinematic parameters estimation during gait based on a multi-view markerless motion capture system

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