22 results on '"Yan-Jie Zhou"'
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2. Cross-Phase Mutual Learning Framework for Pulmonary Embolism Identification on Non-contrast CT Scans.
3. A Novel Multi-task Model Imitating Dermatologists for Accurate Differential Diagnosis of Skin Diseases in Clinical Images.
4. A Novel Fusion Network for Morphological Analysis of Common Iliac Artery.
5. DSP-Net: Deeply-Supervised Pseudo-Siamese Network for Dynamic Angiographic Image Matching.
6. A Dual-Stream Architecture for Real-Time Morphological Analysis of Aneurysm in Robot-Assisted Minimally Invasive Surgery.
7. DFR-Net: A Novel Multi-Task Learning Network for Real-Time Multi-Instrument Segmentation.
8. An Improved Networked Predictive Controller for Vascular Robot Using 5G Networks.
9. Design and Performance Evaluation of a Novel Vascular Robotic System for Complex Percutaneous Coronary Interventions.
10. Vessel Width Estimation via Convolutional Regression.
11. Group Feature Learning and Domain Adversarial Neural Network for aMCI Diagnosis System Based on EEG.
12. A Real-Time Multi-Task Framework for Guidewire Segmentation and Endpoint Localization in Endovascular Interventions.
13. FRR-NET: Fast Recurrent Residual Networks for Real-Time Catheter Segmentation and Tracking in Endovascular Aneurysm Repair.
14. A Lightweight Recurrent Attention Network for Real-Time Guidewire Segmentation and Tracking in Interventional X-Ray Fluoroscopy.
15. Lightweight Double Attention-Fused Networks for Intraoperative Stent Segmentation.
16. A Multilayer-Multimodal Fusion Architecture for Pattern Recognition of Natural Manipulations in Percutaneous Coronary Interventions.
17. RAUNet: Residual Attention U-Net for Semantic Segmentation of Cataract Surgical Instruments.
18. Real-Time Guidewire Segmentation and Tracking in Endovascular Aneurysm Repair.
19. RASNet: Segmentation for Tracking Surgical Instruments in Surgical Videos Using Refined Attention Segmentation Network.
20. BCI and Multimodal Feedback Based Attention Regulation for Lower Limb Rehabilitation.
21. Fully Automatic Dual-Guidewire Segmentation for Coronary Bifurcation Lesion.
22. Forward modeling and inversion based on deep learning by using an effective optimal nearly analytic discrete method
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