个人简介：

周武杰，教授，博士后，硕士生导师，浙江省省级人才，浙江省电子学会理事，IEEE Senior Member，CCF Senior Member，通信学会高级会员，CSIG/CAAI/CAA Member，CAA模式识别与机器智能专委会委员，CSIG视觉大数据专委会委员，CCF多媒体技术专委会委员，CCF Yocsef杭州AC委员，CAAI青工委委员。2012年入选“青年骨干教师”，2015年入选“优秀青年教师资助计划”，2016年入选“科大青年英才”，2022年-2024年连续3年入选斯坦福大学发布的全球前2%顶尖科学家榜单（人工智能与图像处理领域），2024年入选“科大领军人才”，2024年入选浙江省高层次人才特殊支持计划“万人计划”青年拔尖人才。浙江大学博士后（导师：虞露），国家留学基金委公派新加坡南洋理工大学访问学者（导师：Weisi Lin, IEEE Fellow），浙江大学访问学者（导师：杨易）。主要从事人工智能大模型、深度学习、机器视觉与模式识别、图像处理等方面的研究；近几年以第一作者在TIP、TNNLS、TCSVT、TMM、TCAS-I、TII、TITS、JSTSP、TSMC、TBC、TGRS、IEEE IoT Journal、TASE、TAI、TCI、TIM、MIS、TCDS、TETCI、TIV、TBDATA、IEEE Sensors Journal、JSTARS、PR、Information Fusion和中国科学等国际权威SCI期刊或核心期刊上发表学术论文100多篇，其中SCI收录70多篇（中科院一区49篇, IEEE Journal/Transactions/Magazine 63篇，ESI热点论文/高被引论文10多篇，10余篇论文入选TIP、TCSVT、TMM、MIS和TETCI等期刊Top 50 Popular Articles），H指数(h-index)39 (Google Scholar)，被引频次总计5400+ (Google Scholar))；申请国家发明专利70多项，授权50多项，多项已转让投产；第一完成人获浙江省自然科学奖1项，参与获市科学技术奖1项，浙江省青年科技工作者优秀论文奖1项；担任国家基金通讯评审专家，浙江省科技专家库专家，广东省基金项目评审专家；担任TIP、TNNLS、TCSVT、TCYB、TMM、TBC、JSTSP、TSMC、SPL等国外权威SCI期刊稿件评审人。目前，主持国家自然科学基金2项（面上和青年各1项)，省自然科学基金3项（重点、一般和青年各1项），中国博士后基金1项，企业重大横向课题3项，重中之重实验室开放基金2项和教育厅科研项目1项。指导学生获中国服务外包创新创业大赛二等奖1项。

E-mail: wujiezhou@163.com

微信号：zwjzust （欢迎加微信交流）

个人科研主页：https://www.scholat.com/zhouwujie

招收研究生（含联合培养、转专业等）:

视觉智能感知与理解实验室(中央支持地方高校改革发展专项资助建设，项目编号：303011-2019-0008)招收硕士研究生（学硕：先进制造与信息化，专硕：电子信息、应用统计），主要研究方向：人工智能大模型、深度学习、机器视觉与模式识别、图像处理、视觉大数据统计与应用。共计培养了40多名研究生（所有研究生均按时毕业）。其中，20多名毕业生选择进入长三角人工智能相关企业工作，另有20多名毕业生攻读国内外名校的博士学位，如北京大学、University of Liverpool、University of North Texas、University of Technology Sydney、University of Georgia、Oregon State University、武汉大学、同济大学、南开大学、北京理工大学、湖南大学、华南理工大学、北京邮电大学、西北大学、南京理工大学、南昌大学、上海大学、湘潭大学和宁波大学等高校。目前，指导的研究生中14名获国家奖学金（奖金2万/人），4名获卓越学子奖学金（奖金3万/人），1名获校“大学生年度人物”，2篇论文获校优秀硕士论文。预加入实验室请发个人简历和本科成绩（可系统截图）到E-mail: wujiezhou@163.com

实验室"卓越学子"视频（视频中第2位同学--吴君委）：https://mp.weixin.qq.com/s/vYokNzDeHmtVKmIkOcpnnw

实验室"大学生年度人物"（视频中第8位同学--刘劲夫）：https://mp.weixin.qq.com/s/ALDUnCtIs8dbnKoGHvDd3Q

实验室”卓越学子”简介（范晓敏）https://mp.weixin.qq.com/s/hJ9owybCYjAHLWCy5O4BLw

奖项荣誉

1、认知启发式视觉质量评价的理论与方法，2023年度浙江省自然科学奖三等奖，第一完成人

2、立体视觉信息隐藏相关理论与关键技术，2019年度宁波市科学技术奖二等奖，第三完成人

科研项目

1、国家自然科学基金面上项目，62371422，视觉认知启发式双目视觉显著性物体检测模型研究，主持

2、国家自然科学基金青年项目，61502429，基于数据挖掘与感知分析的非对称失真视觉质量评 价模型研究，主持

3、国家重点研发计划项目，2022YFE0196000，数据和知识联合驱动城市易腐垃圾炭化与绿色可持续利用的关键技术及应用，主研

4、浙江省自然科学基金重点项目，ZCLZ25F0202，面向智慧城市视频监控系统的多模态人群密度估计关键技术研究，主持

5、浙江省自然科学基金一般项目，LY18F020012，基于双目视觉机理挖掘的立体视频质量评价模型研究，主持

6、浙江省自然科学基金青年项目，LQ15F020010，基于立体感知特性分析的非对称失真视觉质量客观评价模型研究，主持

7、中国博士后基金面上项目，2015M581932，基于视觉感知挖掘的非对称失真视觉质量评价模型， 主持

8、企业委托项目，2020KJ073，智慧海洋渔船信息智能化管理系统开发项目，主持

9、企业委托项目，2021KJ005，生活垃圾投放智能化监管系统开发，主持

10、企业委托项目，2021KJ130，基于机器视觉的晶振相关产品缺陷图像识别算法，主持

代表作（中科院一区或IEEE Trans.或CCF A类）

[1] W. Zhou*(周武杰), J. Liu, J. Lei, L. Yu and J.-N. Hwang,“GMNet: Graded-Feature Multilabel-Learning Network for RGB-Thermal Urban Scene Semantic Segmentation,” IEEE Transactions on Image Processing, vol. 30, pp. 7790–7802, 2021. (CCF A类)

[2] W. Zhou*(周武杰), Y. Zhu*, J. Lei, R. Yang, L. Yu,“LSNet: Lightweight Spatial Boosting Network for Detecting Salient Objects in RGB-Thermal Images,” IEEE Transactions on Image Processing, vol. 32, pp. 1329–1340, 2023. (CCF A类)

[3] W. Zhou(周武杰), F. Sun, Q. Jiang, R. Cong, J.-N. Hwang,“WaveNet: Wavelet Network with Knowledge Distillation for RGB-T Salient Object Detection,” IEEE Transactions on Image Processing, vol. 32, pp. 3027–3039, 2023. (CCF A类)

[4] W. Zhou*(周武杰), L. Yu, Y. Zhou, W. Qiu, M.-W. Wu, and T. Luo,“Local andGlobalFeatureLearning forBlindQualityEvaluation ofScreenContent andNaturalSceneImages,” IEEE Transactions on Image Processing, vol. 27, no. 5, pp. 2086–2095, May 2018. (CCF A类)

[5] W. Zhou*(周武杰), Y. Zhu, J. Lei, J. Wan, and L. Yu,“CCAFNet: Crossflow and cross-scale adaptive fusion network for detecting salient objects in RGB-D images,” IEEE Transactions on Multimedia, vol. 24, pp. 2192–2204, 2022.

[6] W. Zhou*(周武杰), J. Wu, J. Lei, J.-N. Hwang and L. Yu, “Salient Object Detection in Stereoscopic 3D Images Using a Deep Convolutional Residual Autoencoder,” IEEE Transactions on Multimedia, vol. 23, pp. 3388–3399, 2021.

[7] W. Zhou*(周武杰), X. Lin, J. Lei, L. Yu and J.-N. Hwang,“MFFENet: Multiscale Feature Fusion and Enhancement Network for RGB–Thermal Urban Road Scene Parsing,” IEEE Transactions on Multimedia, vol. 24, pp. 2526–2538, 2022.

[8] W. Zhou*(周武杰), E. Yang, J. Lei, J. Wan, and L. Yu,“PGDENet: Progressive Guided Fusion and Depth Enhancement Network for RGB-D Indoor Scene Parsing,”IEEE Transactions on Multimedia, vol. 25, pp. 3483–3494, 2023.

[9] W. Zhou*(周武杰), L. Yu, “BinocularResponses forNo-Reference 3DImageQualityMeasurement,” IEEE Transactions on Multimedia, vol. 16, no. 6, pp. 1077–1084, 2016.

[10] W. Zhou*(周武杰), Y. Cai, L. Zhang, W. Yan and L. Yu, "UTLNet: Uncertainty-aware Transformer Localization Network for RGB-Depth Mirror Segmentation," IEEE Transactions on Multimedia, vol. 26, pp. 4564–4574, 2024.

[11] W. Zhou*(周武杰), Q. Guo, J. Lei, L. Yu and J.-N. Hwang, “ECFFNet: Effective and Consistent Feature Fusion Network for RGB-T Salient Object Detection,” IEEE Transactions on Circuits and Systems for Video Technology, vol. 32, no. 3, pp. 1224–1235, March 2022.

[12] W. Zhou*(周武杰), H. Zhang, W. Yan, and W. Lin,“MMSMCNet: Modal Memory Sharing and Morphological Complementary Networks for RGB-T Urban Scene Semantic Segmentation,” IEEE Transactions on Circuits and Systems for Video Technology, vol. 33, no. 12, pp. 7096–7108, Dec. 2023.

[13] W. Zhou (周武杰), J. Hong, W. Yan and Q. Jiang, "Modal Evaluation Network via Knowledge Distillation for No-Service Rail Surface Defect Detection," IEEE Transactions on Circuits and Systems for Video Technology, vol. 34, no. 5, pp. 3930–3942, May 2024.

[14] W. Zhou (周武杰),B. Jian,X. Dong and Q. Jiang,“DGPINet-KD: Deep Guided and Progressive Integration Network with Knowledge Distillation for RGB-D Indoor Scene Analysis,”IEEE Transactions on Circuits and Systems for Video Technology, vol. 34, no. 9, pp. 7844–7855, Sept. 2024.

[15] W. Zhou (周武杰),H. Wu and Q. Jiang, “MDNet: Mamba-Effective Diffusion-Distillation Network for RGB-Thermal Urban Dense Prediction,” IEEE Transactions on Circuits and Systems for Video Technology,vol. 35, no. 4, pp. 3222–3233, April 2025.

[16] W. Zhou (周武杰), Y. Wang, and X. Qian, "Knowledge Distillation and Contrastive Learning for Detecting Visible-Infrared Transmission Lines using Separated Stagger Registration Network,"IEEE Transactions on Circuits and Systems I: Regular Papers, doi: 10.1109/TCSI.2024.3521933.

[17] W. Zhou(周武杰), C. Ji, and M. Fang, “Transmission Line Detection through Bidirectional Guided Registration with Knowledge Distillation,” IEEE Transactions on Industrial Informatics, vol. 20, no. 4, pp. 5671–5682, April 2024.

[18] W. Zhou*(周武杰), Q. Guo, J. Lei, L. Yu and J.-N. Hwang,“IRFR-Net: Interactive Recursive Feature-reshaping Network for Detecting Salient Objects in RGB-D Images,” IEEE Transactions on Neural Networks and Learning Systems, vol. 36, no. 3, pp. 4132–4144, March 2025.

[19] W. Zhou (周武杰),X.Sun,X. Qian, andM.Fang,“Asymmetrical Contrastive Learning Network for No-Service Rail Surface Defect Detection,” IEEE Transactions on Neural Networks and Learning Systems, doi: 10.1109/TNNLS.2024.3479453.

[20] W. Zhou (周武杰),B.Jian,Y. Liu, andQ.Jiang,“Multiattentive Perception and Multilayer Transfer Network Using Knowledge Distillation for RGB-D Indoor Scene Parsing,” IEEE Transactions on Neural Networks and Learning Systems, doi: 10.1109/TNNLS.2025.3575088.

[21] W. Zhou*(周武杰), Y. Lv, J. Lei and L. Yu,“Global and Local-Contrast Guides Content-Aware Fusion for RGB-D Saliency Prediction,” IEEE Transactions on Systems, Man, and Cybernetics: Systems, vol. 51, no. 6, pp. 3641–3649, June 2021.

[22] W. Zhou*(周武杰),T. Gong, J. Lei and L. Yu,“DBCNet: Dynamic Bilateral Cross-Fusion Network for RGB-T Urban Scene-Understanding in Intelligent Vehicles,” IEEE Transactions on Systems, Man, and Cybernetics: Systems,vol. 53, no. 12, pp. 7631–7641, Dec. 2023.

[23] W. Zhou(周武杰), T. Gong, and W. Yan, "Knowledge Distillation SegFormer-Based Network for RGB-T Semantic Segmentation,"IEEE Transactions on Systems, Man, and Cybernetics: Systems, vol. 55, no. 3, pp. 2170–2182, March 2025.

[24] W. Zhou*(周武杰), E. Yang, J. Lei, and L. Yu,“FRNet: Feature Reconstruction Network for RGB-D Indoor Scene Parsing,” IEEE Journal of Selected Topics in Signal Processing, vol. 16, no. 4, pp. 677–687, June 2022.

[25] W. Zhou*(周武杰), J. Jin, J. Lei, and L. Yu,“CIMFNet: Cross-layer Interaction and Multiscale Fusion Network for Semantic Segmentation of High-Resolution Remote Sensing Images,” IEEE Journal of Selected Topics in Signal Processing, vol. 16, no. 4, pp. 666–676, June 2022.

[26] W. Zhou*(周武杰), Y.Zhang,W. Yan, L. Ye,“An Efficient RGB-D Indoor Scene-Parsing Solution via Lightweight Multi-flow Intersection and Knowledge Distillation,”IEEE Journal of Selected Topics in Signal Processing, vol. 18, no. 3, pp. 336–345, April 2024.

[27] W. Zhou*(周武杰), Y. Pan, L. Y, J. Lei, and L. Yu,“DEFNet: Dual-Branch Enhanced Feature Fusion Network for RGB-T Crowd Counting,” IEEE Transactions on Intelligent Transportation Systems, vol. 23, no. 12, pp. 24540–24549, Dec. 2022.

[28] W. Zhou*(周武杰), Y. Lv, J. Lei, and L. Yu,“Embedded Control Gate Fusion and Attention Residual Learning for RGB–Thermal Urban Scene Parsing,” IEEE Transactions on Intelligent Transportation Systems, vol. 24, no. 5, pp. 4794–4803, May 2023.

[29] W. Zhou*(周武杰), X. Yang, J. Lei, W. Yan and L. Yu, "MC3Net: Multimodality Cross-Guided Compensation Coordination Network for RGB-T Crowd Counting," IEEE Transactions on Intelligent Transportation Systems, vol. 25, no. 5, pp. 4156–4165, May 2024.

[30] W. Zhou (周武杰), J. Hong, X. Ran, W. Yan and Q. Jiang, "DSANet-KD: Dual Semantic Approximation Network via Knowledge Distillation for Rail Surface Defect Detection,"IEEE Transactions on Intelligent Transportation Systems, vol. 25, no. 10, pp. 13849–13862, Oct. 2024.

[31] W. Zhou (周武杰),Y. Cai,F. Qiang, "Morphology-Guided Network via Knowledge Distillation for RGB-D Mirror Segmentation,"IEEE Transactions on Intelligent Transportation Systems, vol. 25, no. 11, pp. 17382–17391, Nov. 2024.

[32] W. Zhou* (周武杰), J. Jin, J. Lei, and J.-N. Hwang,“CEGFNet: Common Extraction and Gate Fusion Network for Scene Parsing of Remote Sensing Images,” IEEE Transactions on Geoscience and Remote Sensing, vol. 60, 2022, Art no. 5405110.

[33] W. Zhou (周武杰), X. Fan, W. Yan, S. Shan, Q. Jiang, and J.-N. Hwang,“Graph Attention Guidance Network with Knowledge Distillation for Semantic Segmentation of Remote Sensing Images,” IEEE Transactions on Geoscience and Remote Sensing, vol. 61, 2023, Art no. 4506015.

[34] W. Zhou (周武杰), Y. Li, J. Huang, W. Yan, M. Fang and Q. Jiang,“GSGNet-S*: Graph Semantic Guidance Network via Knowledge Distillation for Optical Remote Sensing Image Scene Analysis,” IEEE Transactions on Geoscience and Remote Sensing, vol. 61, 2023, Art no. 4508512.

[35] W. Zhou (周武杰), Y. Li, J. Huang, Y. Liu and Q. Jiang, "MSTNet-KD: Multilevel Transfer Networks Using Knowledge Distillation for the Dense Prediction of Remote-Sensing Images,"IEEE Transactions on Geoscience and Remote Sensing, vol. 62, 2024, Art no. 4504612.

[36] W. Zhou (周武杰),P.Yang,W. Qiu andF.Qiang, "STONet-S*: A Knowledge-Distilled Approach for Semantic Segmentation in Remote-Sensing Images,"IEEE Transactions on Geoscience and Remote Sensing, vol. 62, 2024, Art no. 4414413.

[37] W. Zhou (周武杰),P.Yang,Y. Liu, R. Cong andQ.Jiang, "Remote Sensing Image Scene Classification via Graph Template Enhancement and Supplementation Network with Dual-Teacher Knowledge Distillation,"IEEE Transactions on Geoscience and Remote Sensing, vol. 62, pp. 1–13, 2024, Art no. 3490559.

[38] W. Zhou(周武杰), X. Yang, X. Dong, “MJPNet-S*: Multistyle Joint-perception Network with Knowledge Distillation for Drone RGB-Thermal Crowd Density Estimation in Smart Cities,” IEEE Internet of Things Journal,vol. 11, no. 11, pp. 20327–20339, June 2024.

[39] W. Zhou (周武杰), X. Yang, W. Yan and Q. Jiang, “Hybrid Knowledge Distillation for RGB-T Crowd Density Estimation in Smart Surveillance Systems,”IEEE Internet of Things Journal, vol. 12, no. 7, pp. 9276–9289, April1, 2025.

[40] W. Zhou (周武杰), B. Jian and Y. Liu, "Feature Contrast Difference and Enhanced Network for RGB-D Indoor Scene Classification in Internet of Things," IEEE Internet of Things Journal, vol. 12, no. 11, pp. 17610–17621, June, 2025.

[41] W. Zhou (周武杰), Y. Xiao, W. Yan, and L. Yu,“CMPFFNet: Cross-Modal and Progressive Feature Fusion Network for RGB-D Indoor Scene Semantic Segmentation,” IEEE Transactions on Automation Science and Engineering, vol. 21, no. 4, pp. 5523–5533, Oct. 2024.

[42] W. Zhou (周武杰), J. Yang, et al. “RDNet-KD: Recursive Encoder, Bimodal Screening Fusion, and Knowledge Distillation Network for Rail Defect Detection,” IEEE Transactions on Automation Science and Engineering,vol. 22, pp. 2031–2040, 2025.

[43] W. Zhou (周武杰), W. Qiu, M. Wu, “MSNet: Multiple Strategy Network with Bidirectional Fusion for Detecting Salient Objects in RGB-D Images,” IEEE Transactions on Automation Science and Engineering,vol. 22, pp. 4341–4353, 2025.

[44] W. Zhou (周武杰), H. Zhang, Y. Liu and T. Luo, "Enhancing RGB-D Mirror Segmentation with a Neighborhood-Matching and Demand-Modal Adaptive Network using Knowledge Distillation,"IEEE Transactions on Automation Science and Engineering, vol. 22, pp. 12679–12692, 2025.

[45] W. Zhou* (周武杰), W. Qiu, M. Wu, “UtilizingDictionaryLearning andMachineLearning forBlindQualityAssessment of 3DImages,” IEEE Transactions on Broadcasting, vol. 63, no. 2, pp. 404–415, June 2017.

[46] W. Zhou* (周武杰), S. Dong, J. Lei, and L. Yu,“MTANet: Multitask-Aware Network with Hierarchical Multimodal Fusion for RGB-T Urban Scene Understanding,” IEEE Transactions on Intelligent Vehicles, vol. 8, no. 1, pp. 48–58, Jan. 2023.

[47] W. Zhou (周武杰), S. Dong, M. Fang and L. Yu, "CACFNet: Cross-Modal Attention Cascaded Fusion Network for RGB-T Urban Scene Parsing," IEEE Transactions on Intelligent Vehicles, vol. 9, no. 1, pp. 1919–1929, Jan. 2024.

[48] W. Zhou (周武杰), H. Wu, and Q. Jiang, "MGSGNet-S*: Multilayer Guided Semantic Graph Network via Knowledge Distillation for RGB-Thermal Urban Scene Parsing," IEEE Transactions on Intelligent Vehicles,doi: 10.1109/TIV.2024.3456437.

[49] W. Zhou (周武杰), H. Zhang, and W. Qiu, "Differential Modal Multistage Adaptive Fusion Networks via Knowledge Distillation for RGB-D Mirror Segmentation,"IEEE Transactions on Big Data, doi: 10.1109/TBDATA.2024.3505057.

[50] W. Zhou (周武杰),Y.Li, andY.Liu, "Asymmetric Dual Encoder Network with Clustering and Mutual Contrast Loss for the Semantic Segmentation of Remote Sensing Images,"IEEE Transactions on Big Data, doi: 10.1109/TBDATA.

[51] W. Zhou (周武杰), Y. Xiao,Y.Liu, andQ. Jiang,“FIMKD: Feature-Implicit Mapping Knowledge Distillation for RGB-D Indoor Scene Semantic Segmentation,” IEEE Transactions on Artificial Intelligence,vol. 5, no. 12, pp. 6488–6499, Dec. 2024.

[52] W. Zhou (周武杰), B. Wang, X. Dong, J. Meng, “Location, Neighborhood, and Semantic Guidance Network for RGB-D Co-Salient Object Detection,”IEEE Transactions on Artificial Intelligence, doi: 10.1109/TAI.2025.3564238.

[53] W. Zhou* (周武杰), J. Lei, T. Luo,“TSNet: Three-stream Self-attention Network for RGB-D Indoor Semantic Segmentation,” IEEE Intelligent Systems, vol. 36, no. 4, pp. 73–78, July-Aug. 2021.

[54] W. Zhou* (周武杰), S. Lv, J. Lei, and L. Yu,“RFNet: Reverse Fusion Network with Attention Mechanism for RGB-D Indoor Scene Understanding,” IEEE Transactions on Emerging Topics in Computational Intelligence, vol. 7, no. 2, pp. 598–603, April 2023.

[55] W. Zhou* (周武杰), Y. Zhu, J. Lei, J. Wan, and L. Yu,“APNet: Adversarial-Learning-Assistance and Perceived Importance Fusion Network for All-Day RGB-T Salient Object Detection,” IEEE Transactions on Emerging Topics in Computational Intelligence, vol. 6, no. 4, pp. 957–968, Aug. 2022.

[56] W. Zhou* (周武杰), S. Pan, J. Lei, and L. Yu,“TMFNet: Three-Input Multilevel Fusion Network for Detecting Salient Objects in RGB-D Images,” IEEE Transactions on Emerging Topics in Computational Intelligence, vol. 6, no. 3, pp. 593–601, June 2022.

[57] W. Zhou(周武杰), G. Xu, “ACENet: Auxiliary Context-Information Enhancement Network for RGB-D Indoor Scene Semantic Segmentation,”IEEE Transactions on Emerging Topics in Computational Intelligence, vol. 8, no. 2, pp. 1125–1129, April 2024.

[58] W. Zhou(周武杰), T. Gong, "BFTNet: Boundary-Induced Four-Phase Transformer Network for RGB-Thermal Urban Road Scene Parsing," IEEE Transactions on Emerging Topics in Computational Intelligence,doi:10.1109/TETCI.2024.3442848.

[59] W. Zhou* (周武杰), W. Liu, J. Lei, T. Luo, L. Yu,“DeepBinocularFixationPredictionUsingHierarchicalMultimodalFusionNetwork,” IEEE Transactions on Cognitive and Developmental Systems, vol. 15, no. 2, pp. 476–486, June 2023.

[60] W. Zhou* (周武杰), J. Lei, Q. Jiang, L. Yu and T. Luo,“Blind Binocular Visual Quality Predictor Using Deep Fusion Network,” IEEE Transactions on Computational Imaging, vol. 6, pp. 883–893, 2020.

[61] W. Zhou* (周武杰), and J. Hong, “FHENet: Lightweight Feature Hierarchical Exploration Network for Real-Time Rail Surface Defect Inspection in RGB-D Images,” IEEE Transactions on Instrumentation and Measurement, vol. 72, 2023, Art no. 5005008.

[62] W. Zhou (周武杰), C. Ji and M. Fang,“Effective Dual-Feature Fusion Network for Transmission Line Detection,” IEEE Sensors Journal, vol. 24, no. 1, pp. 101–109, Jan. 2024.

[63] W. Zhou* (周武杰), X. Fan, L. Yu, and J. Lei, “MISNet: MultiscaleCross-layerInteractive andSimilarityRefinementNetwork forSceneParsing ofAerialImages,” IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, vol. 16, pp. 2025–2034, 2023.

[64] W. Zhou* (周武杰), C. Liu, J. Lei, and L. Yu, “Remaking learning: ALightweightNetwork forSaliencyRedetection on RGB-DImages,” SCIENCE CHINA Information Sciences, vol. 65, no. 5, Art. no. 160107, 2022. (CCF A类)

[65] W. Zhou* (周武杰), S. Dong, C. Xu, Y. Qian, “Edge-awareGuidanceFusionNetwork for RGB–ThermalSceneParsing,” in Thirty-Sixth AAAI Conference on Artificial Intelligence (AAAI), vol. 36, no. 3, pp. 3571–3579, 2022. (CCF A类,人工智能顶级会议)

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[67] W. Zhou*(周武杰),Y. Cai, X. Dong, F. Qiang, W. Qiu, “ADRNet-S*: Asymmetric depth registration network via contrastive knowledge distillation for RGB-D mirror segmentation,”Information Fusion,vol. 108, 2024, Art no. 102392.

[68] W. Zhou*(周武杰), L. Yu, Y. Zhou, W. Qiu, M.-W. Wu, Ting Luo, “Blind quality estimator for 3D images based on binocular combination and extreme learning machine,” Pattern Recognition, vol. 71, pp. 207–217, Nov. 2017.

[69] W. Zhou*(周武杰), L. Yu, W. Qiu, Y. Zhou, M. Wu, “LocalGradientPatterns (LGP): anEffectiveLocalStatisticalFeaturesExtractionScheme forNo-ReferenceImageQualityAssessment,” Information Sciences, vol. 397–398, pp. 1–14, Aug. 2017.

[70] W. Zhou (周武杰),Y.Wu, W. Qiu,C.Xu,and F. Qiang, “Effective Bi-decoding Networks for Rail-Surface Defect Detection by Knowledge Distillation,” Applied Soft Computing, vol.167,2024, Art. no. 112422.

[71] W. Zhou (周武杰), Y. Xiao, F. Qiang, X. Dong, C. Xu, L. Yu, “AESeg: Affinity-enhanced segmenter using feature class mapping knowledge distillation for efficient RGB-D semantic segmentation of indoor scenes,”Neural Networks, vol. 188, 2025, Art.no. 107438.

[72] S. Dong (研究生),W. Zhou*, C. Xu, and W. Yan, "EGFNet: Edge-aware guidance fusion network for RGB–thermal urban scene parsing,"IEEE Transactions on Intelligent Transportation Systems, vol. 25, no. 1, pp. 657–669, Jan. 2024.

[73] X. Sun (研究生),W. Zhou* and X. Qian, "Normalized Cyclic Loop Network for Rail Surface Defect Detection Using Knowledge Distillation,"IEEE Transactions on Intelligent Transportation Systems, vol. 25, no. 11, pp. 16561–16573, Nov. 2024.

[74] Y. Li (研究生),W. Zhou*, “Lightweight and Efficient Multimodal Prompt Injection Network for Scene Parsing of Remote-Sensing Scene Images,”IEEE Transactions on Geoscience and Remote Sensing,vol. 62, 2024, Art no. 4417109.

[75] Z. Tu (研究生),W. Zhou*, X. Qian, "Hybrid Knowledge Distillation Network for RGB-D Co-Salient Object Detection,"IEEE Transactions on Systems, Man, and Cybernetics: Systems, vol. 55, no. 4, pp. 2695–2706, April 2025.

[76] Y. Wang (研究生),W. Zhou* and X. Qian, “Transmission Line Detection Through Auxiliary Feature Registration with Knowledge Distillation,”IEEE Transactions on Automation Science and Engineering,vol. 22, pp. 9413–9425, 2025.

[77] Z. Tu (研究生), X. Qian andW. Zhou*, "Efficient RGB-D Co-Salient Object Detection via Modality-Aware Prompting,"IEEE Transactions on Automation Science and Engineering, vol. 22, pp. 12911–12921, 2025.

[78] B. Wang (研究生),W. Zhou*, W. Yan, Q. Jiang and R. Cong,“PENet-KD: Progressive Enhancement Network via Knowledge Distillation for Rail Surface Defect Detection,” IEEE Transactions on Instrumentation and Measurement, vol. 72, 2023, Art no. 5032811.

[79] Y. Wu (研究生), F. Qiang,W. Zhou* and W. Yan, "PFCNet: Enhancing Rail Surface Defect Detection With Pixel-Aware Frequency Conversion Networks,"IEEE Signal Processing Letters, vol. 32, pp. 606–610,2025.

[80] P. Yang (研究生),W. Zhou* and Y. Liu, "Frequency-Aware Integrity Learning Network for Semantic Segmentation of Remote Sensing Images,"IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, vol. 18, pp. 3398–3409, 2025.

[81] X. Yang(研究生),W. Zhou*, W. Yan, X. Qian, “CAGNet: Coordinated attention guidance network for RGB-T crowd counting,”Expert Systems with Applications, vol. 243, 2024, Art no. 122753.

[82] Z. Tu (研究生), X. Qian,W. Zhou*, "Distilled wave-aware network: Efficient RGB-D co-salient object detection via wave learning and three-stage distillation,"Information Sciences, vol.700, 2025,Art. no.121855.

[83] X. Fan(研究生),W. Zhou*, X. Qian, W. Yan, “Progressive adjacent-layer coordination symmetric cascade network for semantic segmentation of multimodal remote sensing images,”Expert Systems with Applications, vol. 238, 2024, Art.no. 121999.

[84] B. Wang (研究生), F. Qiang,W. Zhou*, “Hierarchical Cross-Modal multianchor distillation for rail surface defect detection,”Measurement,Doi: 10.1016/j.measurement.2025.117600.

[85] Y. Zhang(研究生), F. Qiang,W. Zhou*, “IIBNet: Inter- and Intra-Information Balance Network with Self-Knowledge Distillation and Region Attention for RGB-D Indoor Scene Parsing,”Expert Systems with Applications, vol. 281, 2025, Art. no.127670.

[86] C. Ji (研究生),W. Zhou*, J. Lei and L. Ye, "Infrared and Visible Image Fusion via Multiscale Receptive Field Amplification Fusion Network,"IEEE Signal Processing Letters, vol. 30, pp. 493–497, 2023.

[87] H. Zhang (研究生), X. Ran andW. Zhou*, "Self-Knowledge Distillation-Based Staged Extraction and Multiview Collection Network for RGB-D Mirror Segmentation,"IEEE Signal Processing Letters, vol. 31, pp. 1029–1033, 2024.

[88] J. Jin(研究生),W. Zhou*, L. Ye, J. Lei, L. Yu, X. Qian, T. Luo, “DASFNet: Dense-Attention–Similarity-Fusion Network for scene classification of dual-modal remote-sensing images,”International Journal of Applied Earth Observation and Geoinformation, vol. 115, 2022, Art.no. 103087.

[89] X. Guo(研究生),W. Zhou*, T. Liu, “Contrastive Learning-Based Knowledge Distillation for RGB-Thermal Urban Scene Semantic Segmentation,”Knowledge-Based Systems, vol. 292, 2024, Art. no. 111588.

[90] X. Guo (研究生),W. Zhou*, T. Liu, “Multilevel attention imitation knowledge distillation for RGB-thermal transmission line detection,”Expert Systems with Applications, vol. 260, 2025, Art. no. 125406.

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[92] Y. Pan (研究生),W. Zhou*, X. Qian, S. Mao, R. Yang, and L. Yu, “CGINet: Cross-modality grade interaction network for RGB-T crowd counting,” Engineering Applications of Artificial Intelligence, vol. 126, 2023, Art. no. 106885.

[93] C. Li (研究生),W. Zhou*, X. Zhou and W. Yan, "Semantic Progressive Guidance Network for RGB-D Mirror Segmentation,"IEEE Signal Processing Letters, vol. 31, pp. 2780–2784, 2024.

[94] Y. Zhang (研究生),W. Zhou*, X. Ran and M. Fang, "Lightweight Dual Stream Network With Knowledge Distillation for RGB-D Scene Parsing,"IEEE Signal Processing Letters, vol. 31, pp. 855–859, 2024.

[95] E. Yang (研究生),W. Zhou*, X., Qian, J. Lei, and L. Yu, “DRNet: Dual-stage refinement network with boundary inference for RGB-D semantic segmentation of indoor scenes,” Engineering Applications of Artificial Intelligence, vol. 125, 2023, Art. no. 106729.

[96] T. Gong (研究生),W. Zhou*, X. Qian, J. Lei, and L. Yu, “Global contextually guided lightweight network for RGB-thermal urban scene understanding,” Engineering Applications of Artificial Intelligence, vol. 117, 2023, Art. no. 105510.

[97] J. Wu(研究生),W. Zhou*, T. Luo, L. Yu, and J. Lei, “Multiscale multilevel context and multimodal fusion for RGB-D salient object detection,” Signal Processing, vol. 178, 2021, Art. no. 107766.

[98] Y. Wang (研究生), X. Qian andW. Zhou*, "Transformer-Prompted Network: Efficient Audio–Visual Segmentation via Transformer and Prompt Learning,"IEEE Signal Processing Letters, vol. 32, pp. 516–520, 2025.