The control system includes a first controller, a second controller, and a third controller. The third controller includes a first communication module, a second communication module, and a control processing module configured to output a first operation command for operating the first controlled object to the first controller via the first communication module, configured to output a second operation command for operating the second controlled object to the second controller via the second communication module, configured to acquire information on a current position of the first controlled object from the first controller via the first communication module, and configured to correct the second operation command on a basis of information on the current position of the first controlled object.

The invention relates to a method for controlling a group of robots, comprising a leading robot (10) and at least one following robot (20, 30), which cooperates with the leading robot and moves in accordance with the leading robot, wherein the absolute velocity (v.sub.10) of the leading robot and/or the absolute velocity (v.sub.20abs) of the following robot is reduced on the basis of a specified limit (v.sub.max) such that a mutual relative velocity (V.sub.20rel) is not exceeded and therefore a safety function is not triggered.

The control system includes a first controller, a second controller, and a third controller. The third controller includes a first communication module, a second communication module, and a control processing module configured to output a first operation command for operating the first controlled object to the first controller via the first communication module, configured to output a second operation command for operating the second controlled object to the second controller via the second communication module, configured to acquire information on a current position of the first controlled object from the first controller via the first communication module, and configured to correct the second operation command on a basis of information on the current position of the first controlled object.

A first robot and at least one further second robot are provided to run through a plurality of positioning ranges during operation. A dynamic behavior and/or a load characteristic value of the robot in at least one first positioning range can be adapted to a dynamic behavior and/or a load characteristic value in at least one second positioning range of the robot and/or a dynamic behavior and/or a load characteristic value of the first robot in at least one first positioning range is adapted to a dynamic behavior and/or a load characteristic value of the second robot in at least one second positioning range.