Abstract: Provided is a method of coding a robot control device according to a standardized coding format, the method including displaying a format of a syntax to be input in unit of components; with respect to each component in the syntax, displaying one or more candidate component values that are to be input as a value of each component; and completing the syntax based on a user selection on the candidate component values with respect to each component.

Abstract: As a preferred embodiment of the present invention, a device for controlling a collaborative robot includes a collision detection unit configured to sense a collision of the collaborative robot; a control unit configured to control an operation mode of the collaborative robot when the collision detection unit senses the collision; and a collision countermeasure unit configured to apply, when the collision detection unit senses the collision, a collision compensation value to each of a plurality of joints in the collaborative robot so as to change a proceeding direction of a force applied to the each of the plurality of joints.

Abstract: A method of processing control signals using a plurality of ports of a robot control device is provided. The method may include determining a logic signal of each of the plurality of ports corresponding to an N-bit signal frame; generating a port setting bit for determining whether to use each of the plurality of ports corresponding to the N-bit signal frame based on an order of the plurality of ports; generating a result bit by performing a bit operation on the logic signal of each of the plurality of ports and the port setting bit; and processing a first signal based on the result bit.

Abstract: A robot control system for controlling a robot including an actuator is provided. The robot control system includes: a collision detector configured to detect a collision occurring between the robot and an external object during movement of the robot, a driving controller configured to control the actuator, a position calculator configured to calculate at least one of collision position coordinate information indicating a collision position where the collision occurs and pushed position coordinate information indicating a pushed position to which the robot is pushed by a collision force generated from the collision, and a restart coordinate setter configured to set the collision position or a position included in a preset moving path of the robot and spaced apart from the collision position as a restart position for restarting a moving operation of the robot, based on a result of the calculation by the position calculator.