Alert button

"Information": models, code, and papers
Alert button

FeO2: Federated Learning with Opt-Out Differential Privacy

Oct 28, 2021
Nasser Aldaghri, Hessam Mahdavifar, Ahmad Beirami

Figure 1 for FeO2: Federated Learning with Opt-Out Differential Privacy
Figure 2 for FeO2: Federated Learning with Opt-Out Differential Privacy
Figure 3 for FeO2: Federated Learning with Opt-Out Differential Privacy
Figure 4 for FeO2: Federated Learning with Opt-Out Differential Privacy
Viaarxiv icon

Signed Link Prediction with Sparse Data: The Role of Personality Information

Mar 06, 2019
Ghazaleh Beigi, Suhas Ranganath, Huan Liu

Figure 1 for Signed Link Prediction with Sparse Data: The Role of Personality Information
Figure 2 for Signed Link Prediction with Sparse Data: The Role of Personality Information
Figure 3 for Signed Link Prediction with Sparse Data: The Role of Personality Information
Figure 4 for Signed Link Prediction with Sparse Data: The Role of Personality Information
Viaarxiv icon

RPT++: Customized Feature Representation for Siamese Visual Tracking

Oct 23, 2021
Ziang Ma, Haitao Zhang, Linyuan Wang, Jun Yin

Figure 1 for RPT++: Customized Feature Representation for Siamese Visual Tracking
Figure 2 for RPT++: Customized Feature Representation for Siamese Visual Tracking
Figure 3 for RPT++: Customized Feature Representation for Siamese Visual Tracking
Figure 4 for RPT++: Customized Feature Representation for Siamese Visual Tracking
Viaarxiv icon

Learning Temporally Causal Latent Processes from General Temporal Data

Oct 11, 2021
Weiran Yao, Yuewen Sun, Alex Ho, Changyin Sun, Kun Zhang

Figure 1 for Learning Temporally Causal Latent Processes from General Temporal Data
Figure 2 for Learning Temporally Causal Latent Processes from General Temporal Data
Figure 3 for Learning Temporally Causal Latent Processes from General Temporal Data
Figure 4 for Learning Temporally Causal Latent Processes from General Temporal Data
Viaarxiv icon

Multimotion Visual Odometry (MVO)

Oct 28, 2021
Kevin M. Judd, Jonathan D. Gammell

Figure 1 for Multimotion Visual Odometry (MVO)
Figure 2 for Multimotion Visual Odometry (MVO)
Figure 3 for Multimotion Visual Odometry (MVO)
Figure 4 for Multimotion Visual Odometry (MVO)
Viaarxiv icon

Perceived and Intended Sarcasm Detection with Graph Attention Networks

Oct 08, 2021
Joan Plepi, Lucie Flek

Figure 1 for Perceived and Intended Sarcasm Detection with Graph Attention Networks
Figure 2 for Perceived and Intended Sarcasm Detection with Graph Attention Networks
Figure 3 for Perceived and Intended Sarcasm Detection with Graph Attention Networks
Figure 4 for Perceived and Intended Sarcasm Detection with Graph Attention Networks
Viaarxiv icon

Click-Based Student Performance Prediction: A Clustering Guided Meta-Learning Approach

Oct 28, 2021
Yun-Wei Chu, Elizabeth Tenorio, Laura Cruz, Kerrie Douglas, Andrew S. Lan, Christopher G. Brinton

Figure 1 for Click-Based Student Performance Prediction: A Clustering Guided Meta-Learning Approach
Figure 2 for Click-Based Student Performance Prediction: A Clustering Guided Meta-Learning Approach
Figure 3 for Click-Based Student Performance Prediction: A Clustering Guided Meta-Learning Approach
Figure 4 for Click-Based Student Performance Prediction: A Clustering Guided Meta-Learning Approach
Viaarxiv icon

Explainable Fact-checking through Question Answering

Oct 11, 2021
Jing Yang, Didier Vega-Oliveros, Taís Seibt, Anderson Rocha

Figure 1 for Explainable Fact-checking through Question Answering
Figure 2 for Explainable Fact-checking through Question Answering
Figure 3 for Explainable Fact-checking through Question Answering
Figure 4 for Explainable Fact-checking through Question Answering
Viaarxiv icon

An attention-driven hierarchical multi-scale representation for visual recognition

Oct 23, 2021
Zachary Wharton, Ardhendu Behera, Asish Bera

Figure 1 for An attention-driven hierarchical multi-scale representation for visual recognition
Figure 2 for An attention-driven hierarchical multi-scale representation for visual recognition
Figure 3 for An attention-driven hierarchical multi-scale representation for visual recognition
Figure 4 for An attention-driven hierarchical multi-scale representation for visual recognition
Viaarxiv icon

Decoder Fusion RNN: Context and Interaction Aware Decoders for Trajectory Prediction

Aug 12, 2021
Edoardo Mello Rella, Jan-Nico Zaech, Alexander Liniger, Luc Van Gool

Figure 1 for Decoder Fusion RNN: Context and Interaction Aware Decoders for Trajectory Prediction
Figure 2 for Decoder Fusion RNN: Context and Interaction Aware Decoders for Trajectory Prediction
Figure 3 for Decoder Fusion RNN: Context and Interaction Aware Decoders for Trajectory Prediction
Figure 4 for Decoder Fusion RNN: Context and Interaction Aware Decoders for Trajectory Prediction
Viaarxiv icon