A Review of State of Art Techniques for 3D Human Activity Recognition System
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-19-6383-4_1
Reference32 articles.
1. Merrouche F, Baha, N (2016) Depth camera based fall detection using human shape and movement. In: IEEE international Conference on signal and image processing
2. Ma X, Wang H, Xue B, Zhou M, Ji B, Li Y (2014) Depth-based human fall detection via shape features and improved extreme learning machine. IEEE J Biomed Health Inf
3. Bian Z-P, Chau L-P, Magnenat-Thalmann N (2014) Fall detection based on body part tracking using a depth camera. IEEE J Biomed Health Inf
4. Lentzas A, Vrakas D (2019) Non-intrusive human activity recognition and abnormal behavior detection on elderly people: a review. Springer Nature B.V
5. Pham C, Nguyen-Thai S, Tran-Quang H, Tran S, Vu H, Tran T-H, Le T-L (2020) SensCapsNet: deep neural network for non-obtrusive sensing based human activity recognition. IEEE Access
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