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Shuichiro Haruta
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2020 – today
- 2024
- [c24]Rei Sato
, Shuichiro Haruta
QWalkVec: Node Embedding by Quantum Walk. PAKDD (1) 2024: 93-104 - [c23]Julio Vizcarra, Shuichiro Haruta, Mori Kurokawa:
Representing the Interaction between Users and Products via LLM-assisted Knowledge Graph Construction. ICSC 2024: 231-232 - [c22]Zhi Li
Mutual Information-based Preference Disentangling and Transferring for Non-overlapped Multi-target Cross-domain Recommendations. SIGIR 2024: 2124-2133 - [i3]Yanan Wang, Shuichiro Haruta, Donghuo Zeng, Julio Vizcarra, Mori Kurokawa:
Multi-object event graph representation learning for Video Question Answering. CoRR abs/2409.07747 (2024) - [i2]Yanan Wang, Shuichiro Haruta, Donghuo Zeng, Julio Vizcarra, Mori Kurokawa:
Top-down Activity Representation Learning for Video Question Answering. CoRR abs/2409.07748 (2024) - 2023
- [c21]Rikuto Tsubouchi, Takahiro Hara, Kei Yonekawa, Shuichiro Haruta:
Unvisited Out-Of-Town POI Recommendation with Simultaneous Learning of Multiple Regions. IEEE Big Data 2023: 915-924 - [c20]Tatsuya Konishi
CG-GNN: A Novel Compiled Graphs-based Feature Extraction Method for Enterprise Social Networks. ICDAR@ICMR 2023: 24-31 - [c19]Yuma Dose, Shuichiro Haruta, Takahiro Hara:
A Graph-Based Recommendation Model Using Contrastive Learning for Inductive Scenario. ICMLA 2023: 174-181 - [c18]Zhi Li
Semantic Relation Transfer for Non-overlapped Cross-domain Recommendations. PAKDD (3) 2023: 271-283 - 2022
- [c17]Shuichiro Haruta, Tatsuya Konishi, Mori Kurokawa:
A Novel Graph Aggregation Method Based on Feature Distribution Around Each Ego-node for Heterophily. ACML 2022: 452-466 - [c16]Zhi Li
Debiasing Graph Transfer Learning via Item Semantic Clustering for Cross-Domain Recommendations. IEEE Big Data 2022: 762-769 - [c15]Mori Kurokawa, Kei Yonekawa, Shuichiro Haruta, Tatsuya Konishi, Hideki Asoh, Chihiro Ono, Masafumi Hagiwara:
Multi-view Contrastive Multiple Knowledge Graph Embedding for Knowledge Completion. ICMLA 2022: 1412-1418 - [i1]Zhi Li, Daichi Amagata, Yihong Zhang, Takahiro Hara, Shuichiro Haruta, Kei Yonekawa, Mori Kurokawa:
Debiasing Graph Transfer Learning via Item Semantic Clustering for Cross-Domain Recommendations. CoRR abs/2211.03390 (2022) - 2021
- [j7]Hiromu Asahina, Keisuke Arai, Shuichiro Haruta, P. Takis Mathiopoulos, Iwao Sasase:
An Energy-Efficient Defense against Message Flooding Attacks in Delay Tolerant Networks. IEICE Trans. Commun. 104-B(4): 348-359 (2021) - [c14]Tatsuya Okazaki, Hiroya Kato, Shuichiro Haruta, Iwao Sasase:
A Website Fingerprinting Attack based on the Virtual Memory of the Process on Android Devices. APCC 2021: 7-12 - [c13]Shuichiro Haruta, Mori Kurokawa:
An Empirical Study on News Recommendation in Multiple Domain Settings. MobiQuitous 2021: 529-540 - [c12]Kei Yonekawa, Shuichiro Haruta, Tatsuya Konishi, Kazuhiro Saito
A Study on Metrics for Concept Drift Detection Based on Predictions and Parameters of Ensemble Model. MobiQuitous 2021: 568-581 - [c11]Kenta Tsukatsune
Does Activeness Originate in Individuals or Groups? Analysis of the Interrelationships between Network Indices and Posts Using Multilevel Cross-Lagged Model. WI/IAT (Workshop/Special Session) 2021: 117-125 - 2020
- [j6]Hiroya Kato
A Preprocessing by Using Multiple Steganography for Intentional Image Downsampling on CNN-Based Steganalysis. IEEE Access 8: 195578-195593 (2020) - [j5]Hiroya Kato, Shuichiro Haruta, Iwao Sasase:
Android Malware Detection Scheme Based on Level of SSL Server Certificate. IEICE Trans. Inf. Syst. 103-D(2): 379-389 (2020) - [j4]Sanghun Choi, Shuichiro Haruta, Yichen An, Iwao Sasase:
A Server-Based Distributed Storage Using Secret Sharing with AES-256 for Lightweight Safety Restoration. IEICE Trans. Inf. Syst. 103-D(7): 1647-1659 (2020) - [c10]Hiroya Kato, Kyohei Osuge, Shuichiro Haruta, Iwao Sasase:
A Preprocessing Methodology by Using Additional Steganography on CNN-based Steganalysis. GLOBECOM 2020: 1-6
2010 – 2019
- 2019
- [j3]Kyohei Osuge, Hiroya Kato, Shuichiro Haruta, Iwao Sasase:
An Effective Feature Selection Scheme for Android ICC-Based Malware Detection Using the Gap of the Appearance Ratio. IEICE Trans. Inf. Syst. 102-D(6): 1136-1144 (2019) - [j2]Shuichiro Haruta, Hiromu Asahina, Fumitaka Yamazaki, Iwao Sasase:
Hue Signature Auto Update System for Visual Similarity-Based Phishing Detection with Tolerance to Zero-Day Attack. IEICE Trans. Inf. Syst. 102-D(12): 2461-2471 (2019) - [c9]Hironori Nakano, Hiroya Kato, Shuichiro Haruta, Masashi Yoshida, Iwao Sasase:
Trust-based Verification Attack Prevention Scheme using Tendency of Contents Request on NDN. APCC 2019: 159-164 - [c8]Shuichiro Haruta, Fumitaka Yamazaki, Hiromu Asahina, Iwao Sasase:
A Novel Visual Similarity-based Phishing Detection Scheme using Hue Information with Auto Updating Database. APCC 2019: 280-285 - [c7]Hiroya Kato, Shuichiro Haruta, Iwao Sasase:
Android Malware Detection Scheme Based on Level of SSL Server Certificate. GLOBECOM 2019: 1-6 - [c6]Yichen An, Shuichiro Haruta, Sanghun Choi, Iwao Sasase:
Traffic Feature-Based Botnet Detection Scheme Emphasizing the Importance of Long Patterns. IP&C 2019: 181-188 - 2018
- [c5]Keisuke Arai, Shuichiro Haruta, Hiromu Asahina, Iwao Sasase:
Encounter Record Reduction Scheme based on Theoretical Contact Probability for Flooding Attack Mitigation in DTN. APCC 2018: 34-39 - 2017
- [c4]Shoya Morishige, Shuichiro Haruta, Hiromu Asahina, Iwao Sasase:
Obfuscated malicious javascript detection scheme using the feature based on divided URL. APCC 2017: 1-6 - [c3]Kei Sakuma, Hiromu Asahina, Shuichiro Haruta, Iwao Sasase:
Traceroute-based target link flooding attack detection scheme by analyzing hop count to the destination. APCC 2017: 1-6 - [c2]Shuichiro Haruta, Hiromu Asahina, Iwao Sasase:
Visual Similarity-Based Phishing Detection Scheme Using Image and CSS with Target Website Finder. GLOBECOM 2017: 1-6 - 2016
- [j1]Shuichiro Haruta, Kentaroh Toyoda
Trust-Based Sybil Nodes Detection with Robust Seed Selection and Graph Pruning on SNS. IEICE Trans. Commun. 99-B(5): 1002-1011 (2016) - 2015
- [c1]Shuichiro Haruta, Kentaroh Toyoda
Trust-based Sybil nodes detection with robust seed selection and graph pruning on SNS. WIFS 2015: 1-6
Coauthor Index
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