Provided is a tool path correction device which makes it possible to correct a tool path along which a tool moves so as to make it possible to accurately machine a workpiece into a target shape. A tool path correction device according to one aspect of the present disclosure is equipped with: a tool path acquisition unit which acquires tool path information which specifies, using a plurality of command points through which a tool should pass, a tool path along which said tool, which machines a workpiece, moves; a tool shape acquisition unit for acquiring tool shape information which specifies the shape of said tool; a target shape acquisition unit for acquiring target shape information, which specifies the target shape after the workpiece is machined; and a command point addition unit for adding an additional command point as a new command point in a location near a characteristic change point where the characteristics of the target shape change.

A method of controlling a manipulator of an industrial robot having a plurality of joints, the method including providing a candidate trajectory for the manipulator; determining at least one position dependent load value representative of at least one position dependent load acting on the manipulator for the candidate trajectory; modifying the candidate trajectory based on the at least one position dependent load value to provide a modified trajectory; and executing the modified trajectory by the manipulator. A control system for controlling a manipulator of an industrial robot having a plurality of joints, and an industrial robot including a manipulator and a control system, are also provided.

A method of handling a manipulator of an industrial robot, the manipulator including a base member, a mounting interface and a kinematic chain between the base member and the mounting interface, the kinematic chain including the base member, the mounting interface and at least one controllable joint, the method including providing a candidate trajectory for the manipulator, the candidate trajectory being associated with a candidate path; receiving a load location input from a user, the load location input being associated with a load location associated with the industrial robot outside the kinematic chain; and calculating load values of a load parameter that will affect the load location if the candidate trajectory is executed. A control system and an industrial robot are also provided.

The invention includes systems and methods for determining movement of a robot. A computing system of the robot receives information comprising a reference behavior specification, a current state of the robot, and a characteristic of a massive body coupled to or expected to be coupled to the robot. The computing system determines, based on the information, a set of movement parameters for the robot, the set of movement parameters reflecting a goal trajectory for the robot. The computing system instructs the robot to move consistent with the set of movement parameters.

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.

The invention includes systems and methods for determining movement of a robot. A computing system of the robot receives information comprising a reference behavior specification, a current state of the robot, and a characteristic of a massive body coupled to or expected to be coupled to the robot. The computing system determines, based on the information, a set of movement parameters for the robot, the set of movement parameters reflecting a goal trajectory for the robot. The computing system instructs the robot to move consistent with the set of movement parameters.

A method of controlling a manipulator of an industrial robot having a plurality of joints, the method including providing a candidate trajectory for the manipulator; determining at least one position dependent load value representative of at least one position dependent load acting on the manipulator for the candidate trajectory; modifying the candidate trajectory based on the at least one position dependent load value to provide a modified trajectory; and executing the modified trajectory by the manipulator. A control system for controlling a manipulator of an industrial robot having a plurality of joints, and an industrial robot including a manipulator and a control system, are also provided.

The invention includes systems and methods for determining movement of a robot. A computing system of the robot receives information comprising a reference behavior specification, a current state of the robot, and a characteristic of a massive body coupled to or expected to be coupled to the robot. The computing system determines, based on the information, a set of movement parameters for the robot, the set of movement parameters reflecting a goal trajectory for the robot. The computing system instructs the robot to move consistent with the set of movement parameters.

A method of handling a manipulator of an industrial robot, the manipulator including a base member, a mounting interface and a kinematic chain between the base member and the mounting interface, the kinematic chain including the base member, the mounting interface and at least one controllable joint, the method including providing a candidate trajectory for the manipulator, the candidate trajectory being associated with a candidate path; receiving a load location input from a user, the load location input being associated with a load location associated with the industrial robot outside the kinematic chain; and calculating load values of a load parameter that will affect the load location if the candidate trajectory is executed. A control system and an industrial robot are also provided.

Provided is a tool path correction device which makes it possible to correct a tool path along which a tool moves so as to make it possible to accurately machine a workpiece into a target shape. A tool path correction device according to one aspect of the present disclosure is equipped with: a tool path acquisition unit which acquires tool path information which specifies, using a plurality of command points through which a tool should pass, a tool path along which said tool, which machines a workpiece, moves; a tool shape acquisition unit for acquiring tool shape information which specifies the shape of said tool; a target shape acquisition unit for acquiring target shape information, which specifies the target shape after the workpiece is machined; and a command point addition unit for adding an additional command point as a new command point in a location near a characteristic change point where the characteristics of the target shape change.