×

You are using an outdated browser Internet Explorer. It does not support some functions of the site.

Recommend that you install one of the following browsers: Firefox, Opera or Chrome.

Contacts:

+7 961 270-60-01
ivdon3@bk.ru

Correction of the trajectory of the robotic object, taking into account the field of repeller sources

Abstract

Correction of the trajectory of the robotic object, taking into account the field of repeller sources

Kostyukov V.A., Gissov V.G., Evdokimov I.D.

Incoming article date: 30.10.2023

The movement of robotic systems can occur in conditions of interference disturbances, different in quality and power. In this case, the actual task is to correct the initial planned trajectory of the robot's movement in order to evade the latter from the action of these sources in order to maximize some quality functionality. It is advisable to associate the latter with the probability of successful passage of the target trajectory in the field of interference effects. The peculiarity of such an adjustment is the complexity of optimizing the corresponding probability functionals, which leads to the need to develop approximate optimization methods based, however, on a fairly accurate calculation of the probabilities of successful passage for each specific trajectory. In this article, we propose such an approximate correction technique that allows us to effectively bypass interference sources defined by their known areas of action and characteristic probabilistic functions. This technique is based on an iterative procedure of successive approximations to such a trajectory, which has a given probability of successful passage. The developed technique can be effectively integrated into the movement planner of robotic objects moving in conditions of obstacles with fixed boundaries, as well as corresponding repeller sources, information about which allows us to estimate with sufficient accuracy the probability of successful passage of any trajectories in their vicinity at a given speed mode of movement.

Keywords: robotics complex, repeller sources, motion planning, probability of successful completion, iterative procedure, target functionality