Highly realistic, multi-functional phantom system simulating thermal ablation surgical training
Our team leverages three core technologies to develop a highly realistic, multifunctional dummy system for thermal ablation surgery simulation training. These technologies include (1) Biomimetic Dual-network Artificial Materials (BDAM). (2) Interactive Mock Human Circulatory System (IMHCS). (3) Embedded Soft Inductive Sensors (ESIS) technology. We have validated the feasibility of this system through four clinical case studies, demonstrating improved training effectiveness for novice surgeons.
National Cheng Kung University (NCKU) envisions its campus as a place that nurtures imagination, grounded in solid academic research and high-quality learning. The university is committed to fostering urban development and global sustainability as part of its centennial mission. By breaking institutional barriers and strengthening interdisciplinary teaching and research, NCKU encourages students to recognize social issues, produce research that meets societal needs, and actively engage in solving global challenges—reflecting its responsibility as a leading university.
A deep learning-powered novel artificial intelligence algorithm and syste m to assist in the identification of pneumoperitoneum on abdominal com puted tomography
A Wearable and Self-powered Multifunctional Module for Active Infectio n Prevention, Accelerated Wound Healing and Noninvasive Healing Moni toring
The Application of Multi-Functional Graphene-Based Materials in Targeti ng Detection, Diagnosis and Therapy
One Model Fit All: Revolutionary One-Stop Shop System for Predicting Co ronary Stenosis without Normal Database in Myocardial Perfusion Imagin g
Technology maturity:Prototype
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
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