A controller includes control function circuits that are connected to each other and control a multi-axis control machine. Each of the control function circuits performs a respective control function upon receipt of a control signal from another control function circuit of the control function circuits, and the control signal corresponds to a predetermined interface standard determined from the control function.

A robot for physical human-robot interaction may include a number of sensors, a processor, a controller, an actuator, and a joint. The sensors may receive a corresponding number of sensor measurements. The processor may reduce a dimensionality of the number of sensor measurements based on temporal sparsity associated with the number of sensors and spatial sparsity associated with the number of sensors and generate an updated sensor measurement dataset. The processor may receive an action associated with a human involved in pHRI with the robot. The processor may generate a response for the robot based on the updated sensor measurement dataset and the action. The controller may implement the response via an actuator within a joint of the robot.

Methods and systems for enhancing robot's ability to collaborate with human operators by constructing models of objects and processes which are manipulatable by a robot (situation models) and sharing such models with operators. Sharing situation models allows robot to explain its actions to operators in the format they can readily understand. Reciprocally, operators can formulate their instructions to the robot in the format that is both easy to produce for the human and straightforward to interpret in the machine. In this way, the disclosed method and system for constructing situation models in the robot facilitate both adaptation of human operators to robots and adaptation of robots to human operators, thus enhancing collaboration between them.

An information processing apparatus includes an output control unit that controls presentation of internal information that affects behavior of an autonomous operation body, in which the output control unit controls dynamic presentation of the internal information and behavior plan information related to a behavior plan of the autonomous operation body based on the internal information, and the behavior plan information includes information indicating a flow of behavior of the autonomous operation body in time series. Furthermore, provided is an information processing method including, controlling presentation of internal information that affects behavior of an autonomous operation body, in which the controlling presentation further includes controlling dynamic presentation of the internal information and behavior plan information related to a behavior plan of the autonomous operation body based on the internal information, and the behavior plan information includes information indicating a flow of behavior of the autonomous operation body in time series.

A robot-training system permits a user touch, click on or otherwise select items from a display projected in the actual workspace in order to define task goals and constraints for the robot. A planning procedure responds to task definitions and constraints, and creates a sequence of robot instructions implementing the defined tasks.

The present invention provides a collaborative robot system in which a robot and a worker share tasks and perform the tasks. The collaborative robot system including: a work-time-measurement-unit that measures work time for locations assigned to the worker and the robot; a difference-at-increase/decrease-prediction-unit that predicts a difference between the work time of the worker and the robot, when the number of locations assigned to the worker is increased or decreased; an assigned-location-adjustment-unit that increases or decreases the number of locations so that the difference in the work time becomes smaller, in a case in which a predicted-difference-value based on the work time of the worker and the robot, when the number of locations assigned to the worker is maintained is greater than the predicted-difference-value; and an assigned-location-indication-unit that indicates the locations assigned to the worker after the number of assigned locations is increased or decreased.

A robot control device includes a memory and a processor configured to acquire first environmental information regarding a surrounding environment of a robot, specify a first appropriate level associated with a first activity based on the first environmental information by referring to a control policy in which activity information on an activity which has been conducted by the robot, environmental information at a time of conduction of the activity, and appropriate level determined based on a reaction to the activity are associated with each other, and when the first appropriate level information of the first activity does not satisfy a specific condition, deter conduction of the first activity by the robot.

Disclosed is a method of controlling a robot, the method including receiving user input of a request for fitting service, moving the robot to a position at which a distance from the user satisfies a predetermined reference distance or more, and a predetermined range or more of the body of the user is scannable, scanning the predetermined range or more of the body of the user through the camera at the moved position, and providing the fitting service by creating a virtual avatar character of the user based on a result of scanning.

A system for configuring generic maintenance activity scheduling is provided. For example, user input may help define a maintenance process for a plurality of mobile drive units of the physical workspace. The maintenance process may be defined through a configuration of activity templates and input templates. Input may be received to configure maintenance activities and the system may automatically correlate failure rules with the activity template. The system may generate the configurable electronic instructions for the mobile drive units and transmit them with the failure rules, if generated, to one or more mobile drive units of the physical workspace. When the one or more mobile device units receive the configurable electronic instruction, the mobile drive units may operate in accordance with the configurable electronic instruction.

An operating device for controlling or programming a manipulator with six degrees of freedom that can be controlled independently from one another. The operating device includes three input arrangements which are each configured to specify a movement of the manipulator along an x-axis, y-axis or z-axis of the manipulator, and to specify a rotation of the manipulator about the x-axis, y-axis or z-axis of the manipulator. The three input arrangements are thereby respectively aligned along one of three main axes of the operating device.