In this paper, we propose a physics-based and physiology-based approach for modeling real-time deformations of 3-D high-resolution polygonal lung models obtained from high-resolution computed tomography (HRCT) images of normal human subjects. The physics-based deformation operator is nonsymmetric, which accounts for the heterogeneous elastic properties of the lung tissue and spatial-dynamic flow properties of the air. An iterative approach is used to estimate the deformation with the deformation operator initialized based on the regional alveolar expandability, a key physiology-based parameter. The force applied on each surface node is based on the airflow pattern inside the lungs, which is known to be based on the orientation of the human ...
A method to estimate the deformation operator for the 3D volumetric lung dynamics of human subjects ...
A method to estimate the deformation operator for the 3D volumetric lung dynamics of human subjects ...
Human lung undergoes respiration-induced deformation due to sequential inhalation and exhalation. Ac...
In this paper, we propose a physics-based and physiology-based approach for modeling real-time defor...
Visualization tools using Augmented Reality Environments are effective in applications related to me...
Technological advances in Augmented Reality (AR) and extraction of 3D patient specific medical data ...
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 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 ...
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...
A framework for real-time visualization of a tumor-influenced lung dynamics is presented in this pap...
Human lung undergoes breathing-induced deformation in the form of inhalation and exhalation. Modelin...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
A method to estimate the deformation operator for the 3D volumetric lung dynamics of human subjects ...
A method to estimate the deformation operator for the 3D volumetric lung dynamics of human subjects ...
Human lung undergoes respiration-induced deformation due to sequential inhalation and exhalation. Ac...
In this paper, we propose a physics-based and physiology-based approach for modeling real-time defor...
Visualization tools using Augmented Reality Environments are effective in applications related to me...
Technological advances in Augmented Reality (AR) and extraction of 3D patient specific medical data ...
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 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 ...
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...
A framework for real-time visualization of a tumor-influenced lung dynamics is presented in this pap...
Human lung undergoes breathing-induced deformation in the form of inhalation and exhalation. Modelin...
Medical simulation has facilitated the understanding of complex biological phenomenon through its in...
A method to estimate the deformation operator for the 3D volumetric lung dynamics of human subjects ...
A method to estimate the deformation operator for the 3D volumetric lung dynamics of human subjects ...
Human lung undergoes respiration-induced deformation due to sequential inhalation and exhalation. Ac...