The invention relates to a method and a device for incremental forming of a metal workpiece, having at least one spindle, on which the workpiece is clamped, and at least one spindle drive, with which the at least one spindle is set in rotation with the workpiece and/or at least one forming roller is set in rotation relative to the workpiece, wherein the at least one forming roller is advanced radially and/or axially relative to the rotating workpiece by way of at least one actuator. According to the invention, a computer-based controller is provided which records multiple machine parameters via sensors, which parameters comprise at least a rotation speed of the spindle, a position of the forming roller and forming forces and/or an advancement speed of the forming roller, and process parameters and/or workpiece parameters are also recorded by the controller, and the controller creates at least one data set in which the machine parameters are assigned to the process and/or workpiece parameters.

According to one embodiment, a transporter includes a holder, a moving mechanism, a sensor, an operation controller, and a parameter estimator. The holder is configured to hold an object. The moving mechanism is configured to move the holder. The sensor is provided at the holder or the moving mechanism. The operation controller is configured to execute a test operation of moving the holder in a state in which the object is held by the holder. The parameter estimator is configured to estimate at least one parameter relating to the object based on a result of detection acquired by the sensor during the test operation.

An article conveying system includes a tray that is disposed on a floor surface and on which an article to be conveyed is mounted, a robot provided with a force sensor that detects an external force, a frictional force reduction device provided in at least one of the floor surface or the tray, to adjust a frictional force between the floor surface and the tray, and a controller that controls the robot to apply a lateral load to the tray and thereby slide the tray on the floor surface, and controls the frictional force reduction device based on a magnitude of the external force in a direction of the lateral load that is detected by the force sensor when the lateral load is applied.

A parameter setting device is configured to set a parameter relating to a speed of a table of a machine tool in accordance with the weight of an object placed on the table. The parameter setting device includes: an operation control unit configured to provide control such that the table is operated according to a predetermined operation; a positional change obtaining unit configured to obtain a positional change of the table; a storage unit that stores the parameter corresponding to the positional change caused when the table is operated according to the predetermined operation; and a parameter setting unit configured to set, by using the storage unit, the parameter based on the positional change obtained by the positional change obtaining unit when the operation control unit operates the table according to the predetermined operation.

A controlling apparatus is provided. According to an example, the controlling apparatus comprises: an operating body configured to bear acting forces; a mechanical sensing apparatus arranged on a surface of the operating body and configured to sense the acting forces and convert the acting forces into electric signals; and a controlling module configured to determine a resultant force of the acting forces according to the electric signals and control a controlled object to move along a direction of the resultant force of the acting forces.

Disclosed is a robot. The robot includes a manipulator for performing movement, a scoop connected to the manipulator, and for receiving matter, and a controller for controlling the robot, wherein the controller increases temperature of a first part of the scoop when the robot performs a scooping operation of putting the matter into the scoop.

A method for operating a forming press which includes a plurality of press components and a plurality of tool components. The forming press has at least one force sensor and at least one force actuator, each arranged in a press and/or tool component. A forming simulation is carried out, which takes into consideration an elastic behavior of the press and/or tool components. Target values of forces acting on at least one press and/or tool component are determined by the forming simulation. A forming process is carried out by the forming press. During the forming process, actual values of forces acting on the press and/or tool components are measured by the force sensor and the force actuator is actuated via a control loop such that the actual values correspond to the target values from the forming simulation.

A device and method for human intention detection Sensor Band (HID). In preferred embodiments, it makes use of an array of force sensing resistors (FSRs) which are embedded inside a flexible band, which is capable of reading the muscle activity for different motion type and muscle forcein a human user. In one implementation of the invention two of such bands are attached to the forearm and the upper arm. From the readings of the sensors, the patterns for motion type and muscle force are then distinguished autonomously by machine learning, a Support Vector Machine (SVM) algorithm, or a neural network. The method is advantageous e.g. the detection of dexterous motion of the arms, upon which assistive exoskeleton can be controlled for motion assistance. The invention can also be applicable to hand gestures recognition and bilateral rehabilitation, besides this the invention can be used to control lower body exoskeleton as well.

A parameter setting device is configured to set a parameter relating to a speed of a table of a machine tool in accordance with the weight of an object placed on the table. The parameter setting device includes: an operation control unit configured to provide control such that the table is operated according to a predetermined operation; a positional change obtaining unit configured to obtain a positional change of the table; a storage unit that stores the parameter corresponding to the positional change caused when the table is operated according to the predetermined operation; and a parameter setting unit configured to set, by using the storage unit, the parameter based on the positional change obtained by the positional change obtaining unit when the operation control unit operates the table according to the predetermined operation.

A parameter setting device is configured to set a parameter relating to a speed of a table of a machine tool in accordance with the weight of an object placed on the table. The parameter setting device includes: an amount-of-strain obtaining unit configured to obtain the amount of strain of the table; a storage unit storing the parameter corresponding to the amount of strain; and a parameter setting unit configured to set, by using the storage unit, the parameter based on the amount of strain obtained by the amount-of-strain obtaining unit with the table standing still.