The specific objectives of the work package 2 are to:
Identify the anatomical structures related to task-based/procedure-based models.
Determine the suitable data modality (cadaveric, radiological, etc.).
Form the models using different segmentation/modeling softwares.
Validate the anatomical content efficacy with experts.
These specific objectives contribute to the general objectives of the project in the following ways:
OB1: The 3D anatomical models will be used to develop the curriculum for robotic surgery training.
OB2: The 3D anatomical models will be used in physical and digital environment simulators to provide trainees with hands-on experience with robotic surgery.
OB3: The 3D anatomical models will be used to develop procedural and task-based training materials in robotic surgery.
OB4: The 3D anatomical models will be used to evaluate and validate training materials to ensure that they are effective and meet the needs of trainees.
OB5: The 3D anatomical models will be used to develop VR/AR-based educational applications/simulations for robotic surgery.
OB6: The 3D anatomical models will be used to study the physical substance organization of printed 3D models for simulators.
OB7: Customized 3D simulators will be disseminated to clinical and medical education centers so that trainees can access high-quality robotic surgery training.
The work package can also contribute to the general objectives of the project in the following ways:
By developing a library of 3D anatomical models, the project can help to reduce the cost and time required to develop new robotic surgery training programs and simulators.
By making the 3D anatomical models available to the public, the project can help to promote research and development in the field of robotic surgery. By improving the quality of robotic surgery training, the project can help to improve the quality and safety of robotic surgery procedures.
/eyousort