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- Title
Lightweight Stacked Hourglass Network for Human Pose Estimation.
- Authors
Kim, Seung-Taek; Lee, Hyo Jong
- Abstract
Featured Application: The proposed lightweight hourglass network can be applied as an alternative to existing methods that use the hourglass model as a backbone network. Human pose estimation is a problem that continues to be one of the greatest challenges in the field of computer vision. While the stacked structure of an hourglass network has enabled substantial progress in human pose estimation and key-point detection areas, it is largely used as a backbone network. However, it also requires a relatively large number of parameters and high computational capacity due to the characteristics of its stacked structure. Accordingly, the present work proposes a more lightweight version of the hourglass network, which also improves the human pose estimation performance. The new hourglass network architecture utilizes several additional skip connections, which improve performance with minimal modifications while still maintaining the number of parameters in the network. Additionally, the size of the convolutional receptive field has a decisive effect in learning to detect features of the full human body. Therefore, we propose a multidilated light residual block, which expands the convolutional receptive field while also reducing the computational load. The proposed residual block is also invariant in scale when using multiple dilations. The well-known MPII and LSP human pose datasets were used to evaluate the performance using the proposed method. A variety of experiments were conducted that confirm that our method is more efficient compared to current state-of-the-art hourglass weight-reduction methods.
- Subjects
HUMAN body; VISUAL fields; COMPUTER vision; SPINE
- Publication
Applied Sciences (2076-3417), 2020, Vol 10, Issue 18, p6497
- ISSN
2076-3417
- Publication type
Article
- DOI
10.3390/app10186497