A method for operating a numerical controlled machine comprising receiving a sequence of control commands which, when executed by a numerical controlled machine, cause the numerical controlled machine to machine a workpiece to obtain a predetermined workpiece geometry, wherein the sequence of control commands includes while machining the workpiece based on the received sequence of control commands measuring a value of a first interaction parameter for a first position of the tool, comparing a measured value of the first interaction parameter for the first position of the tool with the simulated value of the first interaction parameter for the first position of the tool, and determining an adapted value of the second interaction parameter for a following position of the tool based on a result of the comparison.

A method and an apparatus for determining a product manufacturing program, a device and a storage medium are provided. According to an information identifier configured for describing target key information of the product manufacturing requirement of the target user, a first product manufacturing program with the same information identifier as the target key information is determined from a product manufacturing program library; an operating parameter of a product manufacturing device when manufacturing the target product is input into the first product manufacturing program to simulate manufacturing of the target product, to obtain a first product parameter of a first product obtained, and the first product parameter is compared with a standard product parameter to obtain a first comparison result; when the first product parameter is same as the standard product parameter, the first product manufacturing program is determined as a first target product manufacturing program.

A method for automatically adapting an adaptable process parameter of a tooling machine, the tooling machine being part of a first or second manufacturing process for physically processing input work pieces into output work pieces. According to the method, at least one geometric feature of an output work piece is measured by a coordinate measuring machine, the geometric feature being a direct or indirect result of the processing with the tool. The measurement result is together with nominal measurement data of the geometric feature fed into a deterministic digital simulation of at least a part of the manufacturing process with a digital model such as a digital twin of the tooling machine and modelled process parameters, therein the adaptable process parameter of the tooling machine, simulating at least a deterministic behavior of the tooling machine relevant for an operation of its tool.

The present disclosure provides a machining simulation device capable of obtaining a machine-tool transfer function without requiring data collection and expert knowledge. The machining simulation device includes: a transmission characteristic generation unit that generates a transmission characteristic of a machine tool; and a simulation execution unit that simulates behavior of the machine tool by using the transmission characteristic. The transmission characteristic generation unit includes: a control information acquisition unit that acquires motor information and a control parameter of a motor control system of the machine tool; a motor characteristic calculation unit that calculates a motor characteristics based on the motor information; a control characteristic calculation unit that calculates a control characteristic of the motor control system on the basis of the control parameter; and a transmission characteristic calculation unit that calculates the transmission characteristic satisfying a predetermined requirement on the basis of the motor characteristic and the control characteristic.