| dc.description.abstract | In the theory of delay functional (Volterra) equations, as well as in
ordinary or delay differential equations, the principle of linearized stability
is an effcient tool for studying local asymptotic behaviour of non-linear
systems near a steady state.
The aim of this thesis is to prove that the principle of linearized stabil-
ity for Volterra equations can be used even in some cases when the model
does not satisfy assumptions of the standard formulation of the principle
(see [5]).
We consider a scalar system derived from a Daphnia population model,
as an example of a relatively simple model that does not satisfy the as-
sumptions of the standard formulation of the principle of linearized sta-
bility for Volterra equations and show that the actual principle applies
anyway. | |
