Statistical characteristics of continuous functions and statistically weakly invariant sets of controllable system

We continue the investigation of expansion of a concept of invariance for sets which consists in studying of statistically invariant sets with respect to control systems and differential inclusions is continued. We consider the statistical characteristics of continuous functions: upper and lower relative frequency of containing for graph of a function in a given set. We obtain conditions under which statistical characteristics of two various asymptotical equivalent functions coincide, then by the value of one of them it is possible to calculate the value of another one. We adduce the equality for finding of relative frequencies of hitting of functions the given set in the case when the distance from the graph of one of functions to the given set is a periodic function. A consequence of these statements are conditions of statistically weak invariance of a set with respect to controlled system. For some almost periodic functions we obtain the formulas by which we can calculate the mean values and the statistical characteristics. We also consider the following problem. Let the number $ \lambda_0\in [0,1]$ be given. It is necessary to find the value $c(\lambda_0)$ such that the upper solution $z(t)$ of the Cauchy problem does not exceed $c(\lambda_0)$ with the relative frequency being equal $\lambda_0$. Depending on statement of the problem, a value $z (t) $ can be interpreted as the size of population, energy of a particle, concentration of substance, size of manufacture or the price of production.