Difference between revisions of "Archived Reports"

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Report # ISML/03/2013, [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.
 
Report # ISML/03/2013, [[Media:isml-no-03-2013.pdf|Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models]] Ovidio et al.
 
   
 
   
Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift. Roy et al.
+
Report # ISML/02/2013 [[Media:isml-no-02-2013.pdf|Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift]] Roy et al.
 
   
 
   
 
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.
 
Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.

Revision as of 06:34, 21 April 2016


Reports logo.JPG

2014:

Report # ISML/02/2014 Modified Moving Least Squares with Polynomial Bases for Scattered Data Approximation Joldes et al.

Report # ISML/01/2014 Portable Experimental Device for Determining the Mechanical Properties of Brain-Skull Interface Agrawal et al.

2013:

Report # ISML/03/2013, Final Year Thesis. Towards Non-Rigid Registration Of Whole-Body Radiographic Images, Using Patient-Specific Biomechanical Models Ovidio et al.

Report # ISML/02/2013 Evaluation of accuracy of patient-specific non-linear biomechanical models used to predict intraoperative brain shift Roy et al.

Report # ISML/01/2013 Non-linear finite element biomechanical model as a registration tool for image-guided neurosurgery: evaluation of accuracy against BSpline registration. Mostayed et al.

2011:

Report # ISML/03/2011 Meshless Algorithm For Simulation of Soft Tissue Cutting For Computer-Integrated Surgery. Jin et al.

Report # ISML/02/2011 Beyond Finite Element Analysis in Injury Simulation: Meshless Algorithm for Modelling of Soft Tissue Responses Undergoing Very Large Strains and Damage. Jin et al.


Report # ISML/01/2011 Stable time steps for mesh-free particle methods. Joldes et al. (2011) IJNME preprint

2009:

Report # ISML/03/2009, June 2009. “Real-Time Nonlinear Finite Element Computations on GPU for Surgical Simulation” Authors: Grand Joldes, Adam Wittek, Karol Miller

Report # ISML/02/2009, February 2009. “Accuracy of Non-Linear Finite Modelling for Neurosurgical Simulation; Study Using Brain Phantom” Authors: Jiajie Ma, Adam Wittek, Karol Miller

Report # ISML/01/2009, February 2009. “Evaluation of the Accuracy of Nonlinear Finite Element Modelling for Predicting Intraoperative Brain Deformations: Study of Six Craniotomy Cases”

2007:

Report # ISML/02/2007, July 2007. “Mathematical Methods for Computational Soft Tissue Medical Imaging”

Report # ISML/01/2007, June 2007. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY II"

2006:

Report # ISML/01/2006, February 2006. "MATHEMATICAL MODELS OF BRAIN DEFORMATION BEHAVIOUR FOR COMPUTER-INTEGRATED NEUROSURGERY"

Report # ISML/02/2006, May 2006. "MESH FREE METHODS FOR SOFT TISSUE DEFORMATION IN COMPUTER INTEGRATED SURGERY"

Report # ISML/03/2006, June 2006. "Initial Investigative Report on NORMAL PRESSURE HYDROCEPHALUS"