This work has been done as a part of scientific deliverable 4.1 of ITN Rainbow.(https://rainbow.ku.dk). A. In first part program is written for predicting the position of brain tumour in brain surgery. In the surgery, as surgeonmakes incision and opens the skull, the brain tumour relocates under new boundary conditions. Predicting the position of tumor under different incision sizes is invaluable data for surgeons, which is done by using gaussian process regressor meta-model. B. Second part shows the potential of deep learning approach to solve non-linear deformation behaviour of a cantilever beam in real time constraints. It is shown that deep learning model is able to predict the solution in a very less time compared to finite element ...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
Correctly capturing intraoperative brain shift in image-guided neurosurgical procedures is a critica...
This paper presents new surgical tool-brain tissue interactions models in three directional format c...
Objectives Accurate reconstruction and visualisation of soft tissue deformation in real time is cruc...
The Physics-based Non-Rigid Registration (PBNRR) framework allows for accurate real-time medical ima...
Abstract. Patient-specific biomechanical models implemented using specialized nonlinear (i.e. taking...
Estimation of brain deformation plays an important role in computer-aided therapy and image-guided n...
Traumatic brain injury (TBI) is a serious health and socioeconomic issue which affects thousands of ...
peer reviewedFor many novel applications, such as patient-specific computer-aided surgery, conventio...
The objective of our research is to create a system computing brain deformations. We have in view bo...
Computational biomechanics of the brain for neurosurgery is an emerging area of research recently ga...
PURPOSE: Estimation of brain deformation is crucial during neurosurgery. Whilst mechanical character...
The computational power and advantages of the Finite Element Method (FEM) are noticeable. When deali...
Real-time simulation of elastic structures is essential in many applications, from computer-guided s...
In breast cancer treatment, surgery is one of the most common practices [DeSantis et al., 2019]. The...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
Correctly capturing intraoperative brain shift in image-guided neurosurgical procedures is a critica...
This paper presents new surgical tool-brain tissue interactions models in three directional format c...
Objectives Accurate reconstruction and visualisation of soft tissue deformation in real time is cruc...
The Physics-based Non-Rigid Registration (PBNRR) framework allows for accurate real-time medical ima...
Abstract. Patient-specific biomechanical models implemented using specialized nonlinear (i.e. taking...
Estimation of brain deformation plays an important role in computer-aided therapy and image-guided n...
Traumatic brain injury (TBI) is a serious health and socioeconomic issue which affects thousands of ...
peer reviewedFor many novel applications, such as patient-specific computer-aided surgery, conventio...
The objective of our research is to create a system computing brain deformations. We have in view bo...
Computational biomechanics of the brain for neurosurgery is an emerging area of research recently ga...
PURPOSE: Estimation of brain deformation is crucial during neurosurgery. Whilst mechanical character...
The computational power and advantages of the Finite Element Method (FEM) are noticeable. When deali...
Real-time simulation of elastic structures is essential in many applications, from computer-guided s...
In breast cancer treatment, surgery is one of the most common practices [DeSantis et al., 2019]. The...
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
Correctly capturing intraoperative brain shift in image-guided neurosurgical procedures is a critica...
This paper presents new surgical tool-brain tissue interactions models in three directional format c...