Computers just like humans are susceptible to illness and spreadable viruses. Since computer viruses act in the same manner as human viruses, researchers developed models to study the propagation of worms/viruses. In this work, we consider a model for such a computer worm consisting of differential equations. We will use the numerical methods learnt in the differential equation class to solve this model numerically to understand the phenomena.https://ecommons.udayton.edu/stander_posters/1781/thumbnail.jp
Abstract The concept of information science is inevitable in the human development as...
An implicit aim in cellular infection biology is to understand the mechanisms how viruses, microbes,...
In this paper, I derive a simple differential equation model to visualize the spread of disease duri...
Worm infection were an infection that attack a computer, it work by multiplied itself after got into...
Due to their convenience, computers have become a standard in society and therefore, need the utmost...
Mathematically modeling the spread of disease in a population is a focus among epidemiologists. Usin...
In the biological environment, there has been created epidemiological models that attempt to explain...
Interest in the mathematical modeling of infectious diseases has increased due to the COVID-19 pande...
planning, design, operation, and control of all sizes of building, transportation, machinery, busine...
We analyze real data sets from two e-mail viruses, the Magistr.b and the Sircam.a to explore how we ...
The mathematical model of computer Malware remains a challenging research area for modeling and simu...
Epidemic dynamics of computer viruses is an emerging discipline aiming to understand the way that co...
Nowadays, digital computer systems and networks are the main engineering tools, being used in planni...
We propose a fractional model for computer virus propagation. The model includes the interaction bet...
The increase in the number of computer viruses can be modeled with a mathematical model of the sprea...
Abstract The concept of information science is inevitable in the human development as...
An implicit aim in cellular infection biology is to understand the mechanisms how viruses, microbes,...
In this paper, I derive a simple differential equation model to visualize the spread of disease duri...
Worm infection were an infection that attack a computer, it work by multiplied itself after got into...
Due to their convenience, computers have become a standard in society and therefore, need the utmost...
Mathematically modeling the spread of disease in a population is a focus among epidemiologists. Usin...
In the biological environment, there has been created epidemiological models that attempt to explain...
Interest in the mathematical modeling of infectious diseases has increased due to the COVID-19 pande...
planning, design, operation, and control of all sizes of building, transportation, machinery, busine...
We analyze real data sets from two e-mail viruses, the Magistr.b and the Sircam.a to explore how we ...
The mathematical model of computer Malware remains a challenging research area for modeling and simu...
Epidemic dynamics of computer viruses is an emerging discipline aiming to understand the way that co...
Nowadays, digital computer systems and networks are the main engineering tools, being used in planni...
We propose a fractional model for computer virus propagation. The model includes the interaction bet...
The increase in the number of computer viruses can be modeled with a mathematical model of the sprea...
Abstract The concept of information science is inevitable in the human development as...
An implicit aim in cellular infection biology is to understand the mechanisms how viruses, microbes,...
In this paper, I derive a simple differential equation model to visualize the spread of disease duri...