Learning Deep Representations of Graphs with Missing Entries – A novel algorithm to analyze data set is proposed. The problem is to partition a data set into discrete units that are useful for inference. A novel formulation of the problem is proposed. A practical algorithm is developed to make use of the observed data and the resulting estimation using a convolutional neural network (CNN) is employed. Experimental results demonstrate that the proposed method performs favorably across different performance measures.
One challenge in the recent years is to extract and predict the visual attributes of an object, i.e., the appearance, orientation, and scale. A new model for semantic object segmentation tasks is proposed, utilizing both the spatio-temporal information and spatial information from spatial and temporal domain observations. Previous works on semantic object segmentation either use either spatial and temporal data but the spatio-temporal information is typically only used for training. Hence, we develop an object segmentation framework that utilizes both spatial and temporal data for semantic object segmentation tasks. Based on the spatio-temporal information, we propose using spatio-temporal information for semantic object segmentation tasks. We demonstrate how the proposed model can be used by the visual-semantic segmentation community, in a setting where semantic segmentation tasks are mainly visual tasks. Extensive experimental results on both synthetic and real datasets demonstrate the effectiveness of the proposed method, and the robustness of our method to changes in appearance, orientation, and scale.
Structural Correspondence Analysis for Semi-supervised Learning
Neural Speech Recognition Using the NaCl Convolutional Neural Network
Learning Deep Representations of Graphs with Missing Entries
Compositional Argumentation with Inter-rater Agreement
Unsupervised Feature Learning with Recurrent Neural Networks for High-level Vision EstimationOne challenge in the recent years is to extract and predict the visual attributes of an object, i.e., the appearance, orientation, and scale. A new model for semantic object segmentation tasks is proposed, utilizing both the spatio-temporal information and spatial information from spatial and temporal domain observations. Previous works on semantic object segmentation either use either spatial and temporal data but the spatio-temporal information is typically only used for training. Hence, we develop an object segmentation framework that utilizes both spatial and temporal data for semantic object segmentation tasks. Based on the spatio-temporal information, we propose using spatio-temporal information for semantic object segmentation tasks. We demonstrate how the proposed model can be used by the visual-semantic segmentation community, in a setting where semantic segmentation tasks are mainly visual tasks. Extensive experimental results on both synthetic and real datasets demonstrate the effectiveness of the proposed method, and the robustness of our method to changes in appearance, orientation, and scale.