Call for Participation - Hamlyn Winter School
Hamlyn Winter School on Surgical Imaging and Vision is back!
"The Hamlyn Winter School on Surgical Imaging and Vision is a week long course, held online this year from 6th - 10th Dec 2021. Participants should have a science or medical degree and typically be at a master, doctoral or postdoctoral level.
Due to the ongoing COVID-19 pandemic, the winter school will take place online this year.
Surgical Imaging and Vision is a growing area of research and an integral part of every endeavour in Robotic Surgery. It has advanced from a pre-operative planning and post-operative assessment tool to emerging platforms for intra-operative guidance and navigation. Advances in imaging have enabled the development of new modalities beyond the conventional whole-body techniques such as MR, CT and US to enable in vivo, in situ tissue characterisation by the use of biophotonics techniques that can be integrated with robotic instruments. The development of 3D vision facilitates structural-functional fusion, accurate focused energy delivery, large-area in vivo microscopic imaging, motion adaptation, visual servoing, and navigation under dynamic active constraints. All these are important for the development of new surgical robots for minimally invasive surgery.
Topics Covered
The Hamlyn Winter School focuses on both the technical and clinical aspects of Surgical Imaging and Vision. Through invited lectures, workshops, and mini-projects, the purpose of our winter school is to help researchers familiarise with the cutting edge research of this rapidly expanding field covering key areas of:
- Fundamentals and current state-of-the-art in surgical imaging;
- Vision algorithms for tracking, 3D scene reconstruction and surgical navigation;
- Intra-operative registration and retargeting;
- Multi-modal image fusion and real-time augmented reality systems based on inverse realism;
- Robot assisted large area microscopic imaging and mosaicing;
- Dynamic active constraints with real-time vision;
- Vision enabled surgical robot design and miniaturisation."
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