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Junyan Wu
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2020 – today
- 2026
[j5]Xinzhi Shi, Chao Li
, Xingshuo Han, Shihe Su, Junyan Wu:
LTFDyG: A learnable temporal function-based dynamic graph neural network with dual-channel encoding. Appl. Intell. 56(8): 272 (2026)
[c13]Qianyue Hu
, Junyan Wu, Wei Lu, Xiangyang Luo:
VoiceCloak: A Multi-Dimensional Defense Framework Against Unauthorized Diffusion-Based Voice Cloning. AAAI 2026: 399-407
[c12]Ziqi Sheng, Junyan Wu, Wei Lu, Jiantao Zhou:
Weakly-Supervised Image Forgery Localization via Vision-Language Collaborative Reasoning Framework. AAAI 2026: 988-996
[i12]Kaifeng Wu, Junyan Wu, Qiang Liu, Jiarui Zhang, Wen Xu:
Toward General Semantic Chunking: A Discriminative Framework for Ultra-Long Documents. CoRR abs/2602.23370 (2026)- 2025
[c11]Junyan Wu, Wenbo Xu, Wei Lu, Xiangyang Luo, Rui Yang, Shize Guo:
Weakly-supervised Audio Temporal Forgery Localization via Progressive Audio-language Co-learning Network. IJCAI 2025: 574-582
[c10]Wenbo Xu
, Junyan Wu
, Wei Lu
, Xiangyang Luo
, Qian Wang
:
A Multimodal Deviation Perceiving Framework for Weakly-Supervised Temporal Forgery Localization. ACM Multimedia 2025: 11581-11589
[i11]Junyan Wu, Wenbo Xu, Wei Lu, Xiangyang Luo, Rui Yang, Shize Guo:
Weakly-supervised Audio Temporal Forgery Localization via Progressive Audio-language Co-learning Network. CoRR abs/2505.01880 (2025)
[i10]Qianyue Hu, Junyan Wu, Wei Lu, Xiangyang Luo:
VoiceCloak: A Multi-Dimensional Defense Framework against Unauthorized Diffusion-based Voice Cloning. CoRR abs/2505.12332 (2025)
[i9]Wenbo Xu, Junyan Wu, Wei Lu, Xiangyang Luo, Qian Wang:
A Multimodal Deviation Perceiving Framework for Weakly-Supervised Temporal Forgery Localization. CoRR abs/2507.16596 (2025)
[i8]Ziqi Sheng, Junyan Wu, Wei Lu, Jiantao Zhou:
Weakly-Supervised Image Forgery Localization via Vision-Language Collaborative Reasoning Framework. CoRR abs/2508.01338 (2025)
[i7]Zhichao He, Mouxiao Bian, Jianhong Zhu, Jiayuan Chen
, Yunqiu Wang, Wenxia Zhao, Tianbin Li, Bing Han, Jie Xu, Junyan Wu:
Evaluating the Ability of Large Language Models to Identify Adherence to CONSORT Reporting Guidelines in Randomized Controlled Trials: A Methodological Evaluation Study. CoRR abs/2511.13107 (2025)
[i6]Yan Yang, Mouxiao Bian, Peiling Li, Bingjian Wen, Ruiyao Chen, Kangkun Mao, Xiaojun Ye, Tianbin Li, Pengcheng Chen, Bing Han, Jie Xu, Kaifeng Qiu, Junyan Wu:
Human-Level and Beyond: Benchmarking Large Language Models Against Clinical Pharmacists in Prescription Review. CoRR abs/2512.02024 (2025)- 2024
[j4]Junyan Wu
, Qilin Yin
, Ziqi Sheng, Wei Lu
, Jiwu Huang, Bin Li
:
Audio Multi-View Spoofing Detection Framework Based on Audio-Text-Emotion Correlations. IEEE Trans. Inf. Forensics Secur. 19: 7133-7146 (2024)
[c9]Junyan Wu
, Wei Lu
, Xiangyang Luo
, Rui Yang
, Qian Wang
, Xiaochun Cao
:
Coarse-to-Fine Proposal Refinement Framework for Audio Temporal Forgery Detection and Localization. ACM Multimedia 2024: 7395-7403
[i5]Junyan Wu, Wei Lu, Xiangyang Luo, Rui Yang, Qian Wang, Xiaochun Cao:
Coarse-to-Fine Proposal Refinement Framework for Audio Temporal Forgery Detection and Localization. CoRR abs/2407.16554 (2024)- 2023
[c8]Chenran Luo, Zixin Yan, Junyan Wu, Xia Liu, Yazhuo Li:
Calibration of upper limb joint angle based on Azure Kinect depth camera. DSIT 2023: 103-108- 2022
[j3]Qingqing Gao, Biwei Cao, Xin Guan, Tianyun Gu, Xing Bao, Junyan Wu, Bo Liu
, Jiuxin Cao:
Emotion recognition in conversations with emotion shift detection based on multi-task learning. Knowl. Based Syst. 248: 108861 (2022)
[j2]Hui Tian
, Junyan Wu
, Hanyu Quan, Chin-Chen Chang
:
Detecting Multiple Steganography Methods in Speech Streams Using Multi-Encoder Network. IEEE Signal Process. Lett. 29: 2462-2466 (2022)- 2020
[j1]Suqi Zhang
, Junyan Wu
, Jianxin Li
, Junhua Gu
, Xianchao Tang
, Xinyun Xu
:
Semi-Supervised Community Detection via Constraint Matrix Construction and Active Node Selection. IEEE Access 8: 39078-39090 (2020)
[c7]Junyan Wu, Hao Jiang, Xiaowei Ding, Anudeep Konda, Jin Han, Yang Zhang
, Qian Li:
Learning Differential Diagnosis of Skin Conditions with Co-occurrence Supervision Using Graph Convolutional Networks. MICCAI (2) 2020: 335-344
[i4]Junyan Wu, Hao Jiang, Xiaowei Ding, Anudeep Konda, Jin Han, Yang Zhang, Qian Li:
Learning Differential Diagnosis of Skin Conditions with Co-occurrence Supervision using Graph Convolutional Networks. CoRR abs/2007.06666 (2020)
[i3]Junli Cao, Junyan Wu, Jing W. Zhang, Jay J. Ye, Limin Yu:
Deep learning model trained on mobile phone-acquired frozen section images effectively detects basal cell carcinoma. CoRR abs/2011.11081 (2020)
2010 – 2019
- 2019
[c6]Junyan Wu, Eric Z. Chen, Ruichen Rong, Xiaoxiao Li, Xu Dong, Hongda Jiang:
Skin Lesion Segmentation with C-UNet. EMBC 2019: 2785-2788
[c5]Xiaoxiao Li, Junyan Wu, Eric Z. Chen, Hongda Jiang:
From Deep Learning Towards Finding Skin Lesion Biomarkers. EMBC 2019: 2797-2800
[c4]Eric Z. Chen, Xu Dong, Xiaoxiao Li, Hongda Jiang, Ruichen Rong, Junyan Wu:
Lesion Attributes Segmentation for Melanoma Detection with Multi-Task U-Net. ISBI 2019: 485-488
[c3]Junyan Wu, Jia-Xing Zhong, Eric Z. Chen, Jingwei Zhang, Jay J. Ye, Limin Yu:
Weakly- and Semi-supervised Graph CNN for Identifying Basal Cell Carcinoma on Pathological Images. GLMI@MICCAI 2019: 112-119
[i2]José Ignacio Orlando, Huazhu Fu, João Barbosa Breda, Karel van Keer, Deepti R. Bathula, Andrés Diaz-Pinto, Ruogu Fang, Pheng-Ann Heng, Jeyoung Kim, Joonho Lee, Joonseok Lee, Xiaoxiao Li, Peng Liu, Shuai Lu, Balamurali Murugesan, Valery Naranjo, Sai Samarth R. Phaye, Sharath M. Shankaranarayana, Apoorva Sikka, Jaemin Son, Anton van den Hengel, Shujun Wang, Junyan Wu, Zifeng Wu, Guanghui Xu, Yong-Li Xu, Pengshuai Yin, Fei Li, Xiulan Zhang, Yanwu Xu, Hrvoje Bogunovic:
REFUGE Challenge: A Unified Framework for Evaluating Automated Methods for Glaucoma Assessment from Fundus Photographs. CoRR abs/1910.03667 (2019)- 2018
[c2]Mingming Lu, Kunfang Zhang, Junyan Wu, Dingwu Tan:
Deep Learning Based Urban Post-Accidental Congestion Prediction. MASS 2018: 155-156
[i1]Junyan Wu, Xiaoxiao Li, Eric Z. Chen, Hongda Jiang, Xu Dong, Ruichen Rong:
What evidence does deep learning model use to classify Skin Lesions? CoRR abs/1811.01051 (2018)- 2017
[c1]Junyan Wu, Xiaofu Ma, Weiguo Fan:
HokieGo at 2017 PM Task: Genetic Programming based re-ranking method In Biomedical Information Retrieval. TREC 2017
Coauthor Index

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last updated on 2026-07-03 02:39 CEST by the dblp team
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