
doi: 10.35634/vm220307
We consider a nonlinear control system in a finite-dimensional Euclidean space and on a finite time interval, which depends on a parameter. Reachable sets and integral funnels of a differential inclusion corresponding to a control system containing a parameter are studied. When studying numerous problems of control theory and differential games, constructing their solutions and estimating errors, various theoretical approaches and associated computational methods are used. The problems mentioned above include, for example, various types of approach problems, the resolving constructions of which can be described quite simply in terms of reachable sets and integral funnels. In this paper, we study the dependence of reachable sets and integral funnels on a parameter: the degree of this dependence on a parameter is estimated under certain conditions on the control system. The degree of dependence of the integral funnels is investigated for the change in their volume with a change in the parameter. To estimate this dependence, systems of sets in the phase space are introduced that approximate the reachable sets and integral funnels on a given time interval corresponding to a finite partition of this interval. In this case, the degree of dependence of the approximating system of sets on the parameter is first estimated, and then this estimate is used in estimating the dependence of the volume of the integral funnel of the differential inclusion on the parameter. This approach is natural and especially useful in the study of specific applied control problems, in solving which, in the end, one has to deal not with ideal reachable sets and integral funnels, but with their approximations corresponding to a discrete representation of the time interval.
DISCRETE APPROXIMATION, discrete approximation, DIFFERENTIAL INCLUSIONS, CONTROL NONLINEAR SYSTEMS, VOLUME OF INTEGRAL FUNNEL, volume of integral funnel, parametric depedence, Attainable sets, reachability, differential inclusions, REACHABLE SETS, Nonlinear systems in control theory, control nonlinear systems, PARAMETRIC DEPEDENCE, Control/observation systems governed by ordinary differential equations, Ordinary differential inclusions, reachable sets
DISCRETE APPROXIMATION, discrete approximation, DIFFERENTIAL INCLUSIONS, CONTROL NONLINEAR SYSTEMS, VOLUME OF INTEGRAL FUNNEL, volume of integral funnel, parametric depedence, Attainable sets, reachability, differential inclusions, REACHABLE SETS, Nonlinear systems in control theory, control nonlinear systems, PARAMETRIC DEPEDENCE, Control/observation systems governed by ordinary differential equations, Ordinary differential inclusions, reachable sets
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