Pose-based features have demonstrated to outperform low-levelappearance features in human action recognition. New RGB-D cameras provide locations of human joints with which geometric correspondences can be easily calculated. In this article, a new geometric correspondence between joints called Trisarea feature is presented. It is defined as the area of the triangle formed by three joints. Relevant triangles describing human pose are identified and it is shown how the variation over time of the selected Trisarea features constitutes a descriptor of human action. Experimental results show a comparison with other methods and demonstrate how this Trisarea-based representation can be applied to human action recognition.Peer Reviewe
This paper presents a method to recognize human ac-tions from sequences of depth maps. Specifically,...
International audienceAction recognition based on the 3D coordinates of body skeleton joints is an i...
This paper presents a method to recognize human actions from sequences of depth maps. Specifically, ...
Pose-based features have demonstrated to outperform low-levelappearance features in human action rec...
International audienceThis paper presents an approach for action recognition performed by human usin...
We address action recognition in videos by modeling the spatial-temporal structures of human poses. ...
ii Human actions are the essence of a human life and a natural product of the human mind. Anal-ysis ...
Thesis (Ph.D.)--University of Washington, 2014We propose a system to recognize both isolated and con...
Recently released depth cameras provide effective esti-mation of 3D positions of skeletal joints in ...
Action recognition using RGB-D cameras is a popular research topic. Recognising actions in a pose-in...
Abstract Human action analysis based on 3D imaging is an emerging topic. This paper presents an appr...
In recent years, there has been a proliferation of works on human action classification from depth s...
We present a novel approach to 3D human action recog-nition based on a feature-level fusion of spati...
International audienceRecognizing human actions in 3D video sequences is an important open problem t...
This paper introduces a novel spatial method for human action recognition that is discriminative wit...
This paper presents a method to recognize human ac-tions from sequences of depth maps. Specifically,...
International audienceAction recognition based on the 3D coordinates of body skeleton joints is an i...
This paper presents a method to recognize human actions from sequences of depth maps. Specifically, ...
Pose-based features have demonstrated to outperform low-levelappearance features in human action rec...
International audienceThis paper presents an approach for action recognition performed by human usin...
We address action recognition in videos by modeling the spatial-temporal structures of human poses. ...
ii Human actions are the essence of a human life and a natural product of the human mind. Anal-ysis ...
Thesis (Ph.D.)--University of Washington, 2014We propose a system to recognize both isolated and con...
Recently released depth cameras provide effective esti-mation of 3D positions of skeletal joints in ...
Action recognition using RGB-D cameras is a popular research topic. Recognising actions in a pose-in...
Abstract Human action analysis based on 3D imaging is an emerging topic. This paper presents an appr...
In recent years, there has been a proliferation of works on human action classification from depth s...
We present a novel approach to 3D human action recog-nition based on a feature-level fusion of spati...
International audienceRecognizing human actions in 3D video sequences is an important open problem t...
This paper introduces a novel spatial method for human action recognition that is discriminative wit...
This paper presents a method to recognize human ac-tions from sequences of depth maps. Specifically,...
International audienceAction recognition based on the 3D coordinates of body skeleton joints is an i...
This paper presents a method to recognize human actions from sequences of depth maps. Specifically, ...