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Abstract We will summarize in this concluding section the main results obtained in this part of the thesis for viral infection propagation in 2D.The motivation of our study relies on empirical observations of how viral infections propagate in environments with different geometrical properties, which is an issue of interest in virology. Additionally, this work tries to find another way to resist the infection propagation by dealing with the resistance of the cell.Viruses are obligatory minute intracellular infectious agents with very simple composition. They are non-living macromolecules outside the host cell while turned into living active organisms inside host cells. The genetic material (DNA or RNA) carrying the information crucial for virus replication and enforces the cell to approve virus replication. Consequently, it is cellular resistance against the virus that determines whether a cell at any site is infected or not. In this study, we interest in the resistance of cell which may be infected by some disturbance such as a function of t or as a random variable. |