All times are in Alaska local time (AKDT/UTC−08:00)
BIO-2: Biomedical Signal Processing 2 |
Interactive Q&A Time: Tuesday, September 21, 08:00 - 09:30 |
Session Chair: Attilio Fiandrotti, Università di Torino |
BIO-2.1: CONSISTENT POSTERIOR DISTRIBUTIONS UNDER VESSEL-MIXING: A REGULARIZATION FOR CROSS-DOMAIN RETINAL ARTERY/VEIN CLASSIFICATION |
Chenxin Li; Xiamen University |
Yunlong Zhang; Xiamen University |
Zhehan Liang; Xiamen University |
Wenao Ma; Xiamen University |
Yue Huang; Xiamen University |
Xinghao Ding; Xiamen University |
BIO-2.2: EVALUATING SELF-SUPERVISED LEARNING METHODS FOR DOWNSTREAM CLASSIFICATION OF NEOPLASIA IN BARRETT'S ESOPHAGUS |
Stefan Cornelissen; Eindhoven University of Technology |
Joost van der Putten; Eindhoven University of Technology |
Tim Boers; Eindhoven University of Technology |
Jelmer Jukema; Amsterdam University Medical Centers |
Kiki Fockens; Amsterdam University Medical Centers |
Jacques Bergman; Amsterdam University Medical Centers |
Fons van der Sommen; Eindhoven University of Technology |
Peter de With; Eindhoven University of Technology |
BIO-2.3: WEAKLY-SUPERVISED AUTOMATIC BIOMARKERS DETECTION AND CLASSIFICATION OF RETINAL OPTICAL COHERENCE TOMOGRAPHY IMAGES |
Xiaoming Liu; Wuhan University of Science and Technology |
Zhipeng Liu; Wuhan University of Science and Technology |
Ying Zhang; Wuhan Aier Eye Hospital |
Man Wang; Wuhan Aier Eye Hospital |
Bo Li; Wuhan University of Science and Technology |
Jinshan Tang; George Mason University |
BIO-2.4: UNITOPATHO, A LABELED HISTOPATHOLOGICAL DATASET FOR COLORECTAL POLYPS CLASSIFICATION AND ADENOMA DYSPLASIA GRADING |
Carlo Alberto Barbano; University of Turin |
Daniele Perlo; University of Turin |
Enzo Tartaglione; University of Turin |
Attilio Fiandrotti; University of Turin |
Luca Bertero; University of Turin |
Paola Cassoni; University of Turin |
Marco Grangetto; University of Turin |
BIO-2.5: FREQUENCY FILTERING FOR DATA AUGMENTATION IN X-RAY IMAGE CLASSIFICATION |
Ju-Hyeon Nam; Inha University |
Sang-Chul Lee; Inha University |
BIO-2.6: GSLD: A GLOBAL SCANNER WITH LOCAL DISCRIMINATOR NETWORK FOR FAST DETECTION OF SPARSE PLASMA CELL IN IMMUNOHISTOCHEMISTRY |
Qi Zhang; School of Artificial Intelligence, Beijing University of Posts and Telecommunications; Beijing Key Laboratory of Network System and Network Culture |
Zhu Meng; School of Artificial Intelligence, Beijing University of Posts and Telecommunications; Beijing Key Laboratory of Network System and Network Culture |
Zhicheng Zhao; School of Artificial Intelligence, Beijing University of Posts and Telecommunications; Beijing Key Laboratory of Network System and Network Culture |
Fei Su; School of Artificial Intelligence, Beijing University of Posts and Telecommunications; Beijing Key Laboratory of Network System and Network Culture |
BIO-2.7: CCF-NET: COMPOSITE CONTEXT FUSION NETWORK WITH INTER-SLICE CORRELATIVE FUSION FOR MULTI-DISEASE LESION DETECTION |
Zihao Li; School of Artificial Intelligence, University of Chinese Academy of Sciences |
Jiechao Ma; Deepwise AI Lab |
Shu Zhang; Deepwise AI Lab |
Yemin Shi; Deepwise AI Lab |
Junge Zhang; Institute of Automation, Chinese Academy of Sciences |
Kaiqi Huang; Institute of Automation, Chinese Academy of Sciences |
Yizhou Yu; Deepwise AI Lab |
BIO-2.8: INTERPRETATION OF LESIONAL DETECTION VIA COUNTERFACTUAL GENERATION |
Junho Kim; Korea Advanced Institute of Science and Technology |
Minsu Kim; Korea Advanced Institute of Science and Technology |
Yong Man Ro; Korea Advanced Institute of Science and Technology |
BIO-2.9: NUCLEAR DENSITY DISTRIBUTION FEATURE FOR IMPROVING CERVICAL HISTOPATHOLOGICAL IMAGES RECOGNITION |
Zhuangzhuang Wang; Chongqing University |
Mengning Yang; Chongqing University |
Yangfan Lyu; Second Affiliated Hospital, Army Medical University |
Kairun Chen; Chongqing University |
Qicheng Tang; Chongqing University |
BIO-2.10: ROBUST AND INTERPRETABLE CONVOLUTIONAL NEURAL NETWORKS TO DETECT GLAUCOMA IN OPTICAL COHERENCE TOMOGRAPHY IMAGES |
Kaveri Thakoor; Columbia University |
Sharath Koorathota; Columbia University |
Donald Hood; Columbia University |
Paul Sajda; Columbia University |
BIO-2.11: UNSUPERVISED DOMAIN ALIGNMENT BASED OPEN SET STRUCTURAL RECOGNITION OF MACROMOLECULES CAPTURED BY CRYO-ELECTRON TOMOGRAPHY |
Yuchen Zeng; Carnegie Mellon University |
Gregory Howe; Carnegie Mellon University |
Kai Yi; King Abdullah University of Science and Technology |
Xiangrui Zeng; Carnegie Mellon University |
Jing Zhang; University of California, Irvine |
Yi-Wei Chang; University of Pennsylvania |
Min Xu; Carnegie Mellon University |
BIO-2.12: GRAPH-IN-GRAPH CONVOLUTIONAL NETWORKS FOR BRAIN DISEASE DIAGNOSIS |
Haiyu Zhou; Nanjing University of Aeronautics and Astronautics |
Daoqiang Zhang; Nanjing University of Aeronautics and Astronautics |