In one example in accordance with the present disclosure, a method is described. According to the method, from assembly instructions for a multi-component device, component-specific assembly instructions are generated for a component. The component-specific assembly instructions include a portion of the assembly instructions that relate to the component. Data identifying the component-specific assembly instructions are encoded into a format to be formed onto the component and the encoded data is formed onto the component.

An integrated production planning system of a vehicle includes an information storage unit configured to accumulate and store basic information and work history information of each of a plurality of workers, the work history information including a type of a work performed by the worker in the past and required time for the work. The integrated production planning system also includes a production plan establishment unit configured to establish a vehicle production plan constituted of a work type and a work sequence, to calculate expected hours required for work for each worker based on the basic information and work history information for each worker of the information storage unit, and to establish the vehicle production plan or modify a previously generated production plan by reflecting the calculated expected hours required for the work.

Determining an installation sequence for a system assembly comprising a number of system branches attached to respective terminations is provided. The method comprising receiving schematics for a product into which the system assembly is to be installed, wherein the product comprises a number of openings. A largest termination in the assembly is compared the diameter of an opening through which it is to be routed. If the termination diameter is larger than the opening, an error is generated. If the termination is smaller opening, the diameter of the opening is decremented by a diameter of the system branch attached to termination. The steps are iteratively repeated for the next largest termination in the assembly until an error signal is generated for a termination or all terminations in the system assembly intended to pass through the opening are added as steps in the installation sequence.

A computer-supported manufacturing method for manufacturing workpieces from a workpiece blank according to a manufacturing plan using a machine tool including a processing device. The method includes manufacturing at least one workpiece using the machine tool. A defective workpiece is identified. Manufacturing information related to the identified defective workpiece is read by an order control device. The method ascertains a workpiece blank which is suitable for remanufacturing the faulty workpiece in a planned manufacturing sequence on the basis of the read manufacturing information by the order control device. The defective workpiece to be remanufactured is arranged on the ascertained workpiece blank by the order control device.

In an arrangement design of a robot cell and of robot work, a planning device searches an arrangement graph, that shows candidates for relative positions and orientations between a robot and a fixture; searches a disassembly task sequence, of disassembly tasks that are operations of the robot for disassembling components from the assembly in an arrangement of the relative positions and orientations between the robot and the fixture, and searches for, based on a point sequence of positioning relay points of the robot, a trajectory in which the robot disassembles the components from the assembly; and generates assembly tasks formed of a point sequence obtained by reversing the point sequence of the relay points, an assembly trajectory of the robot which is reverse to a disassembly trajectory formed of interpolation points between the point sequences, and an assembly sequence, which is a reverse order of the disassembly task sequence.

A method of planning the manufacture of component carriers includes defining a set of final product parameters as a target for component carriers to be manufactured, ranking the process parameters concerning their impact on the final product parameters, selecting a subset of higher ranked process parameters, inputting the selected subset of process parameters for processing by an artificial intelligence module, and determining an action plan for the manufacturing based on an output of the artificial intelligence module, where the product parameters are influenceable by a set of process parameters settable during the manufacturing method.

A method and also an associated computer program (product) and an apparatus for shaping a production process for producing a product made up of multiple subproducts in a production system having multiple production modules is provided. The claimed method has the following steps: generating a process model using data about production steps to be carried out for the product and the subproducts thereof, from which process model at least some of the data about at least one production step are read and a respective production module that is available and associated for carrying out the respective production step is ascertained and using a signal connection to provide instructions that correspond to the respective production step for the production module.

A production module for performing a production function on a product, production system, production planning device, and method for planning the production of the product, wherein a plurality of production modules are intercoupled, where a self-description information set is stored within each production module as a database, e.g., NoSQL, OWL, ontology, SPARQL, which comprises properties of the production module, where if a production information set comprising the production steps required to produce the product is present, then the production information set and the self-description information sets or parts thereof are transmitted to a production planning device to plan production of the product and a production procedure plan for a product to be processed is determined, and where the production procedure plan comprises an information set about a sequence of production modules of the production system, which sequence a product should pass through to produce an intermediate product or end product.

A system and method for mounting a modular switch cabinet equipment in a switch cabinet housing (6) includes a computer-aided assistance unit (1) for determining a production-efficient assembly step sequence. The system and method further include at least one display unit (11-11′) for image and/or text information, which is installed at the assembly site for at least one fitter (M) in order to visualize manual assembly steps (A; B; D) of the determined assembly step sequence. The system and method further includes at least one input unit (12-12′) for acknowledgement of the completed assembly step (A; B; D) by the fitter (M).

The present invention relates to a method for testing articles. The method comprises providing a plurality of test stations, a conveyor assembly and a central controller; using a first test station to perform tests on an article under a first testing schedule; determining identification information of the article by a sensor device as the article enters the first station; storing test completion information in relation to the corresponding identification information at the controller; wherein, if the test completion information indicates that all tests were performed, then updating a second testing schedule to confirm that no additional testing is needed at a second station; and wherein if the test completion information indicates that a test was not completed, then updating the second testing schedule so that, when the article is in the second test station, a not completed test can be performed to prevent the conveyor from having to be stopped.