Abstract
Model-based gait recognition is considered to be promising due to the robustness against some variations, such as clothing and baggage carried. Although model-based gait recognition has not been fully explored due to the difficulty of human body model fitting and the lack of a large-scale gait database, recent progress in deep learning-based approaches to human body model fitting and human pose estimation is mitigating the difficulty. In this paper, we, therefore, address the remaining issue by presenting a large-scale human pose-based gait database, OUMVLP-Pose, which is based on a publicly available multi-view large-scale gait database, OUMVLP. OUMVLP-Pose has many unique advantages compared with other public databases. First, OUMVLP-Pose is the first gait database that provides two datasets of human pose sequences extracted by two standard deep learning-based pose estimation algorithms, OpenPose and AlphaPose. Second, it contains multi-view large-scale data, i.e., over 10,000 subjects and 14 views for each subject. In addition, we also provide benchmarks in which different kinds of gait recognition methods, including model-based methods and appearance-based methods, have been evaluated comprehensively. The model-based gait recognition methods have shown promising performances. We believe this database, OUMVLP-Pose, will greatly promote model-based gait recognition in the next few years.
Highlights
G AIT is one of the most popular behavioral biometrics in the world because it has unique advantages compared with face, iris, palm print, etc
Ben et al [29], [30] proposed another two crossview gait recognition methods respectively based on matrix and tensor, which are suitable for reducing the small sample size problem in discriminative subspace selection
By taking account of the fact that the original paper reported 80% and 90% rank-1 identification rates on 10 galleries by kNN classifiers (k = 1 and 3, respectively), the obtained accuracy for the FT method on our database is reasonable. It shows that even one thigh angle and one knee angle can contribute to gait recognition obviously
Summary
G AIT is one of the most popular behavioral biometrics in the world because it has unique advantages compared with face, iris, palm print, etc. The KY4D gait database [23] contains 42 subjects of three-dimensional volume data which constructed multi-view images captured by 16 cameras. The GEI is the most widely used gait feature in the video-based gait analysis community, a large-scale multi-view gait database with pose sequences is demanded since it enables us to more. AN et al.: PERFORMANCE EVALUATION OF MODEL-BASED GAIT ON MULTI-VIEW VERY LARGE POPULATION DATABASE WITH POSE SEQUENCES deep learning to recover human skeleton models. They converted 2D pose data to 3D for view invariant feature extraction in [37]. Purely analyze gait, i.e., motion pattern when free from the body shape
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