Visualization tools using Augmented Reality Environments are effective in applications related to medical training, prognosis and expert interaction. Such medical visualization tools can also provide key visual insights on the physiology of deformable anatomical organs (e.g. lungs). In this paper we propose a deformation method that facilitates physically-based elastostatic deformations of 3D high-resolution polygonal models. The implementation of the deformation method as a pre-computation approach is shown for a 3D high-resolution lung model. The deformation is represented as an integration of the applied force and the local elastic property assigned to the 3D lung model. The proposed deformation method shows faster convergence to equilib...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
This paper presents a pre-operative anatomical visualization framework, PRASAD (Physically Realistic...
A framework for real-time visualization of a tumor-influenced lung dynamics is presented in this pap...
Technological advances in Augmented Reality (AR) and extraction of 3D patient specific medical data ...
In this paper, we propose a physics-based and physiology-based approach for modeling real-time defor...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
In this paper, we propose a physics-based and physiology-based approach for modeling real-time defor...
In this paper we discuss a framework for modeling the 3D lung dynamics of normal and diseased human ...
In this paper we discuss a framework for modeling the 3D lung dynamics of normal and diseased human ...
Medical simulations of lung dynamics promise to be effective tools for teaching and training clinica...
Medical simulations of lung dynamics promise to be effective tools for teaching and training clinica...
Medical simulations of lung dynamics promise to be effective tools for teaching and training clinica...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
This paper presents a pre-operative anatomical visualization framework, PRASAD (Physically Realistic...
A framework for real-time visualization of a tumor-influenced lung dynamics is presented in this pap...
Technological advances in Augmented Reality (AR) and extraction of 3D patient specific medical data ...
In this paper, we propose a physics-based and physiology-based approach for modeling real-time defor...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
In this paper, we propose a physics-based and physiology-based approach for modeling real-time defor...
In this paper we discuss a framework for modeling the 3D lung dynamics of normal and diseased human ...
In this paper we discuss a framework for modeling the 3D lung dynamics of normal and diseased human ...
Medical simulations of lung dynamics promise to be effective tools for teaching and training clinica...
Medical simulations of lung dynamics promise to be effective tools for teaching and training clinica...
Medical simulations of lung dynamics promise to be effective tools for teaching and training clinica...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
This paper presents a pre-operative anatomical visualization framework, PRASAD (Physically Realistic...
A framework for real-time visualization of a tumor-influenced lung dynamics is presented in this pap...