3D Object classification using a volumetric deep neural network: An efficient Octree Guided Auxiliary Learning approach

A.A.M. Muzahid; W. Wan; F. Sohel; N.U. Khan; O.D. Cervantes Villagomez; H. Ullah

doi:10.1109/ACCESS.2020.2968506

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3D Object classification using a volumetric deep neural network: An efficient Octree Guided Auxiliary Learning approach

Journal article

Open access

Peer reviewed

3D Object classification using a volumetric deep neural network: An efficient Octree Guided Auxiliary Learning approach

A.A.M. Muzahid, W. Wan, F. Sohel, N.U. Khan, O.D. Cervantes Villagomez and H. Ullah

IEEE Access, Vol.8, pp.23802-23816

2020

DOI: https://doi.org/10.1109/ACCESS.2020.2968506

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Abstract

We consider the recent challenges of 3D shape analysis based on a volumetric CNN that requires a huge computational power. This high-cost approach forces to reduce the volume resolutions when applying 3D CNN on volumetric data. In this context, we propose a multiorientation volumetric deep neural network (MV-DNN) for 3D object classification with octree generating low-cost volumetric features. In comparison to conventional octree representations, we propose to limit the octree partition to a certain depth to reserve all leaf octants with sparsity features. This allows for improved learning of complex 3D features and increased prediction of object labels at both low and high resolutions. Our auxiliary learning approach predicts object classes based on the subvolume parts of a 3D object that improve the classification accuracy compared to other existing 3D volumetric CNN methods. In addition, the influence of views and depths of the 3D model on the classification performance is investigated through extensive experiments applied to the ModelNet40 database. Our deep learning framework runs significantly faster and consumes less memory than full voxel representations and demonstrate the effectiveness of our octree-based auxiliary learning approach for exploring high resolution 3D models. Experimental results reveal the superiority of our MV-DNN that achieves better classification accuracy compared to state-of-art methods on two public databases.

Details

Title: 3D Object classification using a volumetric deep neural network: An efficient Octree Guided Auxiliary Learning approach
Authors/Creators: A.A.M. Muzahid (Author/Creator) - Shanghai University
W. Wan (Author/Creator) - Shanghai University
F. Sohel (Author/Creator) - Murdoch University
N.U. Khan (Author/Creator) - Shanghai University
O.D. Cervantes Villagomez (Author/Creator)
H. Ullah (Author/Creator) - Shanghai University
Publication Details: IEEE Access, Vol.8, pp.23802-23816
Publisher: IEEE
Identifiers: 991005540799307891
Murdoch Affiliation: College of Science, Health, Engineering and Education
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 4 Electrical Engineering, Electronics & Computer Science; 4.17 Computer Vision & Graphics; 4.17.2798 Stereo Depth Estimation
Web Of Science research areas: Computer Science, Information Systems; Engineering, Electrical & Electronic; Telecommunications
ESI research areas: Engineering