A display window control system for a mobile manipulation device includes an interface and a processor. The interface is configured to receive an image from a mobile manipulation device. The processor is configured to determine a display output to display the image in a display window; determine an overlay output to display one or more overlay command icons; determine that an indication has been received to activate an overlay command; and provide the indication to the mobile manipulation device.

A robotic system includes a jointed mechanism, position sensors, and a controller. The mechanism has an end-effector, and further includes actively-controlled joints and passive joints that are redundant with the actively-controlled joints. The position sensors are operable for measuring joint positions of the passive joints. The controller is in communication with the position sensors, and is programmed to execute a method to selectively control the actively-controlled joints in response to the measured joint positions using force control and/or a modeled impedance of the robotic mechanism. Possible control modes in impedance control include an Autonomous Mode in which an operator does not physically interact with the end-effector and a Cooperative Control Mode in which the operator physically interacts with the end-effector.

An automation operating and management system consolidates and analyzes inputs from multiple machines within an automated enterprise to predict failures and provide instructions for counteractions to prevent failures during machine operation, and to identify opportunities for efficiency improvement, including actions for reduction in peak power consumption demand within a facility including multiple machines. A machine can include a machine controller and at least one base layer controller, where the base layer controller acts as a low level controller to directly control the motion of elements in communication with the base layer control, according to parameters set by the machine controller. The base layer controller collects timing data for the elements under its control, compares the timing data with the parameters and sets an alarm when the timing data is outside of tolerance limits defined by the parameters.

A control device of a machining tool with power consumption reduction function includes an execution unit configured to execute control of devices using parameter extracted from a parameter set storage unit, based on a selected priority mode and operation condition of the machining tool. At least one parameter set stored in the parameter storage unit is set with a parameter corresponding to the heating device having a value for making the heating device in an on state and a parameter corresponding to the cooling device having a value for making the cooling device in an on state.

A robot system comprises a manipulator and a controller therefore, wherein the controller supports impedance-based control of a lead-through operation mode, characterized in that the controller is switchable between impedance-based and admittance-based control of the lead-through mode.

An automation operating and management system consolidates and analyzes inputs from multiple machines within an automated enterprise to predict failures and provide instructions for counteractions to prevent failures during machine operation, and to identify opportunities for efficiency improvement, including actions for reduction in peak power consumption demand within a facility including multiple machines. A machine can include a machine controller and at least one base layer controller, where the base layer controller acts as a low level controller to directly control the motion of elements in communication with the base layer control, according to parameters set by the machine controller. The base layer controller collects timing data for the elements under its control, compares the timing data with the parameters and sets an alarm when the timing data is outside of tolerance limits defined by the parameters.

A controllable machine comprises a mechanism having at least two components arranged relative to one another and movable relative to one another with respect to an axis by at least one drive, a memory, and a control device coupled to the at least one drive. The control device controls the at least one drive to move the mechanism in a first operating mode such that the mechanism moves along a movement path and records the movement path in the memory. The control device controls the at least one drive on the basis of the movement path recorded in the memory in a second operating mode such that the mechanism moves along the movement path recorded in the memory.

A process application robot system in which a process condition can be adjusted even when operation limitation regarding setting the condition is valid, while ensuring safety regarding management and operation of the process condition. The robot system includes a robot which carries out a predetermined process operation; a robot controller which controls the robot; a process controller which controls a processing treatment in the process operation; an interface part for setting, changing or adjusting a process condition which determines a content of the process treatment; and a process condition change managing part which carries out an operation limitation with respect to setting of or setting change in the process condition. The content of the process condition which is set when the operation limitation is invalid is determined as a reference condition, and the process condition can be adjusted within an adjustable range based on the reference condition.

A system for controlling automation includes a machine which collects data generated by performance of an operation by the machine. A user device displays a machine control interface (MCI) corresponding to the machine. The MCI displays the collected data to a touch interface of the user device, and defines at least one touch activated user interface element (UIE) for manipulating the data. The user device can be enabled as an automation human machine interface (HMI) device for controlling an operation performed by the machine, such that a touch action applied to a UIE of the MCI controls the operation. A prerequisite condition to enabling the user device as an automation HMI device can include activation of an enabling switch selectively connected to the user device. The MCI can be stored in a memory of the enabling switch and retrieved from the enabling switch by the user device.

A system and method for controlling automation includes a machine performing at least one operation and including a sensor for generating data in response to a performance of the operation by the machine. Data generated by the sensor is stored for retrieval by a server in data memory storage. The server includes at least one display template for displaying the data, and the server generates a data display by populating the at least one display template with the data. The data template can be populated with data in real time, to display the data display immediate to the generation of the data. The display template includes a data feature which is differentiated for displaying the data feature in a mode determined by the data populating the data display. The data display can be displayed in real time by a user device in communication with the server.