In this paper, the fractal properties of stochastic processes and objects in different areas were
specified and investigated. These included: measuring systems and sensors, navigation and motion
controls, telecommunication systems and networks, and flaw detection technologies. Additional
options that occur through the use of fractality were also indicated and exemplified for each
application. Regarding the problems associated with navigation information processing, the
following fractal nature processes were identified: errors of inertial sensors based on the
microelectromechanical systems called MEMS, in particular gyroscopic drift and accelerometer bias,
and; the trajectory movement of mobile objects. With regard to navigation problems specifically, the
estimation problem statement and its solution are given by way of the Bayesian approach for
processing fractal processes. The modified index of self-similarity for telecommunication series was
proposed, and the self-similarity of network traffic based on the R/S method and wavelet analysis
was identified. In failure detection, fractality manifested as porosity, wrinkles, surface fractures, and
ultrasonic echo signals measured using non-destructive sensors used for rivet compound testing.