Mixed-Reality Surgical Simulator for Minimally Invasive Surgery
الملخص
Modern medical practice relies on minimally invasive surgery (MIS), which has
revolutionized surgery. Understanding complicated anatomical features and improving
hand-eye coordination for instrument-tissue interactions are essential for MIS.
However, learning these abilities can be difficult, affecting patient surgery results and
surgeon confidence.
Advanced simulations like Virtual Reality (VR), Augmented Reality (AR), and Mixed
Reality (MR) have increasingly been preferred along with apprenticeship models in
surgical training as they provide immersive and interactive environments while being
safe and controlled. Furthermore, simulators minimize risks associated with practicing
on real patients while learning, and also in terms of accessibility and flexibility. This
thesis proposes a mixed reality surgical simulator that blends realistic tactile feedback
from box trainers with VR visual correctness to meet modern surgical training needs.
The simulator connects actual and virtual events for more complete and effective
training.
This thesis performs a development and technological evaluation of the mixed reality
surgical simulator. This study evaluates the simulation system's capacity to accurately
mimic real-life MIS situations and enable realistic tool-tissue interactions to improve
surgical education. By systematically analyzing the simulator's functions, the study
hopes to demonstrate its benefits and potential to transform surgical training.
In conclusion, this research intends to lay the groundwork for a more advanced and
efficient surgical training system to improve patient care and surgical practice.
DOI/handle
http://hdl.handle.net/10576/51453المجموعات
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