The paper focuses on a numerical method for detecting, visualizing and monitoring abnormal cell growth using large-scale mathematical simulations. The discretization of multi-dimensional partial differential equation (PDE) is based on finite difference method. The predictor system depending on users input data via a user interface, generating the initial and boundary condition generated from parabolic or elliptic type of PDE. The processing large sparse matrixes are based on multiprocessor computer systems for abnormal growth visualization. The multi-dimensional abnormal cell has produced the numerical analysis and understanding results at the target area for the potential improvement of detection and monitoring the growth. The development ...
Abstract: This paper presents the mathematical model for visualizing the active migration glioma gro...
Abstract: The challenging issues of cancer prevention and cure lie in the need for a more detailed k...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
The parallel algorithm for the simulation of human tumor growth is a new invention at the present ti...
The main objective of this study is to visualize the brain tumors’ growth in three-dimensional and...
Brain tumour is one of the prevalent cancers in the world that lead to death. Based on the present k...
We introduce a parallel algorithm for the numerical simulation of the growth of human tumor cells in...
Abstract—The authors ’ main interest was to develop vascular solid tumour growth model, implement ef...
The development of the simulation software aims at anticipating the growth of breast cancer. Based o...
Abstract:- The compartmental models using differential equations are basic models in epidemiology. T...
We present a fast numerical algorithm for solving delay partial differential equations that model th...
The study of tumor growth biology with computer-based models is currently an area of active research...
The human body is made up of many types of cells. Each type of the cells has the special functions. ...
AbstractThe use of parallelism may overcome some of the constraints imposed by single processor comp...
Detecting breast cancer at an early stage will decrease the mortality rate and improve the cancer tr...
Abstract: This paper presents the mathematical model for visualizing the active migration glioma gro...
Abstract: The challenging issues of cancer prevention and cure lie in the need for a more detailed k...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...
The parallel algorithm for the simulation of human tumor growth is a new invention at the present ti...
The main objective of this study is to visualize the brain tumors’ growth in three-dimensional and...
Brain tumour is one of the prevalent cancers in the world that lead to death. Based on the present k...
We introduce a parallel algorithm for the numerical simulation of the growth of human tumor cells in...
Abstract—The authors ’ main interest was to develop vascular solid tumour growth model, implement ef...
The development of the simulation software aims at anticipating the growth of breast cancer. Based o...
Abstract:- The compartmental models using differential equations are basic models in epidemiology. T...
We present a fast numerical algorithm for solving delay partial differential equations that model th...
The study of tumor growth biology with computer-based models is currently an area of active research...
The human body is made up of many types of cells. Each type of the cells has the special functions. ...
AbstractThe use of parallelism may overcome some of the constraints imposed by single processor comp...
Detecting breast cancer at an early stage will decrease the mortality rate and improve the cancer tr...
Abstract: This paper presents the mathematical model for visualizing the active migration glioma gro...
Abstract: The challenging issues of cancer prevention and cure lie in the need for a more detailed k...
In this paper, we propose a parallel cellular automaton tumor growth model that includes load balanc...