Title :
Semi-supervised Learning for RGB-D Object Recognition
Author :
Yanhua Cheng ; Xin Zhao ; Kaiqi Huang ; Tieniu Tan
Author_Institution :
Center for Res. on Intell. Perception & Comput., Inst. of Autom., Beijing, China
Abstract :
Conventional supervised object recognition methods have been investigated for many years. Despite their successes, there are still two suffering limitations: (1) various information of an object is represented by artificial features only derived from RGB images, (2) lots of manually labeled data is required by supervised learning. To address those limitations, we propose a new semi-supervised learning framework based on RGB and depth (RGB-D) images to improve object recognition. In particular, our framework has two modules: (1) RGB and depth images are represented by convolutional-recursive neural networks to construct high level features, respectively, (2) co-training is exploited to make full use of unlabeled RGB-D instances due to the existing two independent views. Experiments on the standard RGB-D object dataset demonstrate that our method can compete against with other state-of-the-art methods with only 20% labeled data.
Keywords :
feature extraction; image colour analysis; learning (artificial intelligence); neural nets; object recognition; RGB-D images; RGB-D object recognition improvement; RGB-and-depth images; artificial features; co-training approach; convolutional-recursive neural networks; high-level feature construction; image representation; manually labeled data; object information representation; semisupervised learning framework; standard RGB-D object dataset; supervised object recognition method; unlabeled RGB-D instances; Accuracy; Cameras; Feature extraction; Object recognition; Semisupervised learning; Shape; Training;
Conference_Titel :
Pattern Recognition (ICPR), 2014 22nd International Conference on
Conference_Location :
Stockholm
DOI :
10.1109/ICPR.2014.412
